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|
/*******************************************************************************
Copyright (c) 2013 - 2015, 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:
1. Redistributions of source code must retain the above copyright notice,
this list of conditions and the following disclaimer.
2. 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.
3. Neither the name of the 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 "i40e_type.h"
#include "i40e_adminq.h"
#include "i40e_prototype.h"
#include "virtchnl.h"
/**
* i40e_set_mac_type - Sets MAC type
* @hw: pointer to the HW structure
*
* This function sets the mac type of the adapter based on the
* vendor ID and device ID stored in the hw structure.
**/
#if defined(INTEGRATED_VF) || defined(VF_DRIVER)
enum i40e_status_code i40e_set_mac_type(struct i40e_hw *hw)
#else
STATIC enum i40e_status_code i40e_set_mac_type(struct i40e_hw *hw)
#endif
{
enum i40e_status_code status = I40E_SUCCESS;
DEBUGFUNC("i40e_set_mac_type\n");
if (hw->vendor_id == I40E_INTEL_VENDOR_ID) {
switch (hw->device_id) {
case I40E_DEV_ID_SFP_XL710:
case I40E_DEV_ID_QEMU:
case I40E_DEV_ID_KX_B:
case I40E_DEV_ID_KX_C:
case I40E_DEV_ID_QSFP_A:
case I40E_DEV_ID_QSFP_B:
case I40E_DEV_ID_QSFP_C:
case I40E_DEV_ID_10G_BASE_T:
case I40E_DEV_ID_10G_BASE_T4:
case I40E_DEV_ID_20G_KR2:
case I40E_DEV_ID_20G_KR2_A:
case I40E_DEV_ID_25G_B:
case I40E_DEV_ID_25G_SFP28:
hw->mac.type = I40E_MAC_XL710;
break;
#ifdef X722_A0_SUPPORT
case I40E_DEV_ID_X722_A0:
#endif
case I40E_DEV_ID_KX_X722:
case I40E_DEV_ID_QSFP_X722:
case I40E_DEV_ID_SFP_X722:
case I40E_DEV_ID_1G_BASE_T_X722:
case I40E_DEV_ID_10G_BASE_T_X722:
case I40E_DEV_ID_SFP_I_X722:
hw->mac.type = I40E_MAC_X722;
break;
#if defined(INTEGRATED_VF) || defined(VF_DRIVER)
case I40E_DEV_ID_X722_VF:
#ifdef X722_A0_SUPPORT
case I40E_DEV_ID_X722_A0_VF:
#endif
hw->mac.type = I40E_MAC_X722_VF;
break;
#endif /* INTEGRATED_VF || VF_DRIVER */
#if defined(INTEGRATED_VF) || defined(VF_DRIVER)
case I40E_DEV_ID_VF:
case I40E_DEV_ID_VF_HV:
case I40E_DEV_ID_ADAPTIVE_VF:
hw->mac.type = I40E_MAC_VF;
break;
#endif
default:
hw->mac.type = I40E_MAC_GENERIC;
break;
}
} else {
status = I40E_ERR_DEVICE_NOT_SUPPORTED;
}
DEBUGOUT2("i40e_set_mac_type found mac: %d, returns: %d\n",
hw->mac.type, status);
return status;
}
/**
* i40e_aq_str - convert AQ err code to a string
* @hw: pointer to the HW structure
* @aq_err: the AQ error code to convert
**/
const char *i40e_aq_str(struct i40e_hw *hw, enum i40e_admin_queue_err aq_err)
{
switch (aq_err) {
case I40E_AQ_RC_OK:
return "OK";
case I40E_AQ_RC_EPERM:
return "I40E_AQ_RC_EPERM";
case I40E_AQ_RC_ENOENT:
return "I40E_AQ_RC_ENOENT";
case I40E_AQ_RC_ESRCH:
return "I40E_AQ_RC_ESRCH";
case I40E_AQ_RC_EINTR:
return "I40E_AQ_RC_EINTR";
case I40E_AQ_RC_EIO:
return "I40E_AQ_RC_EIO";
case I40E_AQ_RC_ENXIO:
return "I40E_AQ_RC_ENXIO";
case I40E_AQ_RC_E2BIG:
return "I40E_AQ_RC_E2BIG";
case I40E_AQ_RC_EAGAIN:
return "I40E_AQ_RC_EAGAIN";
case I40E_AQ_RC_ENOMEM:
return "I40E_AQ_RC_ENOMEM";
case I40E_AQ_RC_EACCES:
return "I40E_AQ_RC_EACCES";
case I40E_AQ_RC_EFAULT:
return "I40E_AQ_RC_EFAULT";
case I40E_AQ_RC_EBUSY:
return "I40E_AQ_RC_EBUSY";
case I40E_AQ_RC_EEXIST:
return "I40E_AQ_RC_EEXIST";
case I40E_AQ_RC_EINVAL:
return "I40E_AQ_RC_EINVAL";
case I40E_AQ_RC_ENOTTY:
return "I40E_AQ_RC_ENOTTY";
case I40E_AQ_RC_ENOSPC:
return "I40E_AQ_RC_ENOSPC";
case I40E_AQ_RC_ENOSYS:
return "I40E_AQ_RC_ENOSYS";
case I40E_AQ_RC_ERANGE:
return "I40E_AQ_RC_ERANGE";
case I40E_AQ_RC_EFLUSHED:
return "I40E_AQ_RC_EFLUSHED";
case I40E_AQ_RC_BAD_ADDR:
return "I40E_AQ_RC_BAD_ADDR";
case I40E_AQ_RC_EMODE:
return "I40E_AQ_RC_EMODE";
case I40E_AQ_RC_EFBIG:
return "I40E_AQ_RC_EFBIG";
}
snprintf(hw->err_str, sizeof(hw->err_str), "%d", aq_err);
return hw->err_str;
}
/**
* i40e_stat_str - convert status err code to a string
* @hw: pointer to the HW structure
* @stat_err: the status error code to convert
**/
const char *i40e_stat_str(struct i40e_hw *hw, enum i40e_status_code stat_err)
{
switch (stat_err) {
case I40E_SUCCESS:
return "OK";
case I40E_ERR_NVM:
return "I40E_ERR_NVM";
case I40E_ERR_NVM_CHECKSUM:
return "I40E_ERR_NVM_CHECKSUM";
case I40E_ERR_PHY:
return "I40E_ERR_PHY";
case I40E_ERR_CONFIG:
return "I40E_ERR_CONFIG";
case I40E_ERR_PARAM:
return "I40E_ERR_PARAM";
case I40E_ERR_MAC_TYPE:
return "I40E_ERR_MAC_TYPE";
case I40E_ERR_UNKNOWN_PHY:
return "I40E_ERR_UNKNOWN_PHY";
case I40E_ERR_LINK_SETUP:
return "I40E_ERR_LINK_SETUP";
case I40E_ERR_ADAPTER_STOPPED:
return "I40E_ERR_ADAPTER_STOPPED";
case I40E_ERR_INVALID_MAC_ADDR:
return "I40E_ERR_INVALID_MAC_ADDR";
case I40E_ERR_DEVICE_NOT_SUPPORTED:
return "I40E_ERR_DEVICE_NOT_SUPPORTED";
case I40E_ERR_MASTER_REQUESTS_PENDING:
return "I40E_ERR_MASTER_REQUESTS_PENDING";
case I40E_ERR_INVALID_LINK_SETTINGS:
return "I40E_ERR_INVALID_LINK_SETTINGS";
case I40E_ERR_AUTONEG_NOT_COMPLETE:
return "I40E_ERR_AUTONEG_NOT_COMPLETE";
case I40E_ERR_RESET_FAILED:
return "I40E_ERR_RESET_FAILED";
case I40E_ERR_SWFW_SYNC:
return "I40E_ERR_SWFW_SYNC";
case I40E_ERR_NO_AVAILABLE_VSI:
return "I40E_ERR_NO_AVAILABLE_VSI";
case I40E_ERR_NO_MEMORY:
return "I40E_ERR_NO_MEMORY";
case I40E_ERR_BAD_PTR:
return "I40E_ERR_BAD_PTR";
case I40E_ERR_RING_FULL:
return "I40E_ERR_RING_FULL";
case I40E_ERR_INVALID_PD_ID:
return "I40E_ERR_INVALID_PD_ID";
case I40E_ERR_INVALID_QP_ID:
return "I40E_ERR_INVALID_QP_ID";
case I40E_ERR_INVALID_CQ_ID:
return "I40E_ERR_INVALID_CQ_ID";
case I40E_ERR_INVALID_CEQ_ID:
return "I40E_ERR_INVALID_CEQ_ID";
case I40E_ERR_INVALID_AEQ_ID:
return "I40E_ERR_INVALID_AEQ_ID";
case I40E_ERR_INVALID_SIZE:
return "I40E_ERR_INVALID_SIZE";
case I40E_ERR_INVALID_ARP_INDEX:
return "I40E_ERR_INVALID_ARP_INDEX";
case I40E_ERR_INVALID_FPM_FUNC_ID:
return "I40E_ERR_INVALID_FPM_FUNC_ID";
case I40E_ERR_QP_INVALID_MSG_SIZE:
return "I40E_ERR_QP_INVALID_MSG_SIZE";
case I40E_ERR_QP_TOOMANY_WRS_POSTED:
return "I40E_ERR_QP_TOOMANY_WRS_POSTED";
case I40E_ERR_INVALID_FRAG_COUNT:
return "I40E_ERR_INVALID_FRAG_COUNT";
case I40E_ERR_QUEUE_EMPTY:
return "I40E_ERR_QUEUE_EMPTY";
case I40E_ERR_INVALID_ALIGNMENT:
return "I40E_ERR_INVALID_ALIGNMENT";
case I40E_ERR_FLUSHED_QUEUE:
return "I40E_ERR_FLUSHED_QUEUE";
case I40E_ERR_INVALID_PUSH_PAGE_INDEX:
return "I40E_ERR_INVALID_PUSH_PAGE_INDEX";
case I40E_ERR_INVALID_IMM_DATA_SIZE:
return "I40E_ERR_INVALID_IMM_DATA_SIZE";
case I40E_ERR_TIMEOUT:
return "I40E_ERR_TIMEOUT";
case I40E_ERR_OPCODE_MISMATCH:
return "I40E_ERR_OPCODE_MISMATCH";
case I40E_ERR_CQP_COMPL_ERROR:
return "I40E_ERR_CQP_COMPL_ERROR";
case I40E_ERR_INVALID_VF_ID:
return "I40E_ERR_INVALID_VF_ID";
case I40E_ERR_INVALID_HMCFN_ID:
return "I40E_ERR_INVALID_HMCFN_ID";
case I40E_ERR_BACKING_PAGE_ERROR:
return "I40E_ERR_BACKING_PAGE_ERROR";
case I40E_ERR_NO_PBLCHUNKS_AVAILABLE:
return "I40E_ERR_NO_PBLCHUNKS_AVAILABLE";
case I40E_ERR_INVALID_PBLE_INDEX:
return "I40E_ERR_INVALID_PBLE_INDEX";
case I40E_ERR_INVALID_SD_INDEX:
return "I40E_ERR_INVALID_SD_INDEX";
case I40E_ERR_INVALID_PAGE_DESC_INDEX:
return "I40E_ERR_INVALID_PAGE_DESC_INDEX";
case I40E_ERR_INVALID_SD_TYPE:
return "I40E_ERR_INVALID_SD_TYPE";
case I40E_ERR_MEMCPY_FAILED:
return "I40E_ERR_MEMCPY_FAILED";
case I40E_ERR_INVALID_HMC_OBJ_INDEX:
return "I40E_ERR_INVALID_HMC_OBJ_INDEX";
case I40E_ERR_INVALID_HMC_OBJ_COUNT:
return "I40E_ERR_INVALID_HMC_OBJ_COUNT";
case I40E_ERR_INVALID_SRQ_ARM_LIMIT:
return "I40E_ERR_INVALID_SRQ_ARM_LIMIT";
case I40E_ERR_SRQ_ENABLED:
return "I40E_ERR_SRQ_ENABLED";
case I40E_ERR_ADMIN_QUEUE_ERROR:
return "I40E_ERR_ADMIN_QUEUE_ERROR";
case I40E_ERR_ADMIN_QUEUE_TIMEOUT:
return "I40E_ERR_ADMIN_QUEUE_TIMEOUT";
case I40E_ERR_BUF_TOO_SHORT:
return "I40E_ERR_BUF_TOO_SHORT";
case I40E_ERR_ADMIN_QUEUE_FULL:
return "I40E_ERR_ADMIN_QUEUE_FULL";
case I40E_ERR_ADMIN_QUEUE_NO_WORK:
return "I40E_ERR_ADMIN_QUEUE_NO_WORK";
case I40E_ERR_BAD_IWARP_CQE:
return "I40E_ERR_BAD_IWARP_CQE";
case I40E_ERR_NVM_BLANK_MODE:
return "I40E_ERR_NVM_BLANK_MODE";
case I40E_ERR_NOT_IMPLEMENTED:
return "I40E_ERR_NOT_IMPLEMENTED";
case I40E_ERR_PE_DOORBELL_NOT_ENABLED:
return "I40E_ERR_PE_DOORBELL_NOT_ENABLED";
case I40E_ERR_DIAG_TEST_FAILED:
return "I40E_ERR_DIAG_TEST_FAILED";
case I40E_ERR_NOT_READY:
return "I40E_ERR_NOT_READY";
case I40E_NOT_SUPPORTED:
return "I40E_NOT_SUPPORTED";
case I40E_ERR_FIRMWARE_API_VERSION:
return "I40E_ERR_FIRMWARE_API_VERSION";
case I40E_ERR_ADMIN_QUEUE_CRITICAL_ERROR:
return "I40E_ERR_ADMIN_QUEUE_CRITICAL_ERROR";
}
snprintf(hw->err_str, sizeof(hw->err_str), "%d", stat_err);
return hw->err_str;
}
/**
* i40e_debug_aq
* @hw: debug mask related to admin queue
* @mask: debug mask
* @desc: pointer to admin queue descriptor
* @buffer: pointer to command buffer
* @buf_len: max length of buffer
*
* Dumps debug log about adminq command with descriptor contents.
**/
void i40e_debug_aq(struct i40e_hw *hw, enum i40e_debug_mask mask, void *desc,
void *buffer, u16 buf_len)
{
struct i40e_aq_desc *aq_desc = (struct i40e_aq_desc *)desc;
u8 *buf = (u8 *)buffer;
u16 len;
u16 i = 0;
if ((!(mask & hw->debug_mask)) || (desc == NULL))
return;
len = LE16_TO_CPU(aq_desc->datalen);
i40e_debug(hw, mask,
"AQ CMD: opcode 0x%04X, flags 0x%04X, datalen 0x%04X, retval 0x%04X\n",
LE16_TO_CPU(aq_desc->opcode),
LE16_TO_CPU(aq_desc->flags),
LE16_TO_CPU(aq_desc->datalen),
LE16_TO_CPU(aq_desc->retval));
i40e_debug(hw, mask, "\tcookie (h,l) 0x%08X 0x%08X\n",
LE32_TO_CPU(aq_desc->cookie_high),
LE32_TO_CPU(aq_desc->cookie_low));
i40e_debug(hw, mask, "\tparam (0,1) 0x%08X 0x%08X\n",
LE32_TO_CPU(aq_desc->params.internal.param0),
LE32_TO_CPU(aq_desc->params.internal.param1));
i40e_debug(hw, mask, "\taddr (h,l) 0x%08X 0x%08X\n",
LE32_TO_CPU(aq_desc->params.external.addr_high),
LE32_TO_CPU(aq_desc->params.external.addr_low));
if ((buffer != NULL) && (aq_desc->datalen != 0)) {
i40e_debug(hw, mask, "AQ CMD Buffer:\n");
if (buf_len < len)
len = buf_len;
/* write the full 16-byte chunks */
for (i = 0; i < (len - 16); i += 16)
i40e_debug(hw, mask,
"\t0x%04X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X\n",
i, buf[i], buf[i+1], buf[i+2], buf[i+3],
buf[i+4], buf[i+5], buf[i+6], buf[i+7],
buf[i+8], buf[i+9], buf[i+10], buf[i+11],
buf[i+12], buf[i+13], buf[i+14], buf[i+15]);
/* the most we could have left is 16 bytes, pad with zeros */
if (i < len) {
char d_buf[16];
int j, i_sav;
i_sav = i;
memset(d_buf, 0, sizeof(d_buf));
for (j = 0; i < len; j++, i++)
d_buf[j] = buf[i];
i40e_debug(hw, mask,
"\t0x%04X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X\n",
i_sav, d_buf[0], d_buf[1], d_buf[2], d_buf[3],
d_buf[4], d_buf[5], d_buf[6], d_buf[7],
d_buf[8], d_buf[9], d_buf[10], d_buf[11],
d_buf[12], d_buf[13], d_buf[14], d_buf[15]);
}
}
}
/**
* i40e_check_asq_alive
* @hw: pointer to the hw struct
*
* Returns true if Queue is enabled else false.
**/
bool i40e_check_asq_alive(struct i40e_hw *hw)
{
if (hw->aq.asq.len)
#ifdef PF_DRIVER
#ifdef INTEGRATED_VF
if (!i40e_is_vf(hw))
return !!(rd32(hw, hw->aq.asq.len) &
I40E_PF_ATQLEN_ATQENABLE_MASK);
#else
return !!(rd32(hw, hw->aq.asq.len) &
I40E_PF_ATQLEN_ATQENABLE_MASK);
#endif /* INTEGRATED_VF */
#endif /* PF_DRIVER */
#ifdef VF_DRIVER
#ifdef INTEGRATED_VF
if (i40e_is_vf(hw))
return !!(rd32(hw, hw->aq.asq.len) &
I40E_VF_ATQLEN1_ATQENABLE_MASK);
#else
return !!(rd32(hw, hw->aq.asq.len) &
I40E_VF_ATQLEN1_ATQENABLE_MASK);
#endif /* INTEGRATED_VF */
#endif /* VF_DRIVER */
return false;
}
/**
* i40e_aq_queue_shutdown
* @hw: pointer to the hw struct
* @unloading: is the driver unloading itself
*
* Tell the Firmware that we're shutting down the AdminQ and whether
* or not the driver is unloading as well.
**/
enum i40e_status_code i40e_aq_queue_shutdown(struct i40e_hw *hw,
bool unloading)
{
struct i40e_aq_desc desc;
struct i40e_aqc_queue_shutdown *cmd =
(struct i40e_aqc_queue_shutdown *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_queue_shutdown);
if (unloading)
cmd->driver_unloading = CPU_TO_LE32(I40E_AQ_DRIVER_UNLOADING);
status = i40e_asq_send_command(hw, &desc, NULL, 0, NULL);
return status;
}
/**
* i40e_aq_get_set_rss_lut
* @hw: pointer to the hardware structure
* @vsi_id: vsi fw index
* @pf_lut: for PF table set true, for VSI table set false
* @lut: pointer to the lut buffer provided by the caller
* @lut_size: size of the lut buffer
* @set: set true to set the table, false to get the table
*
* Internal function to get or set RSS look up table
**/
STATIC enum i40e_status_code i40e_aq_get_set_rss_lut(struct i40e_hw *hw,
u16 vsi_id, bool pf_lut,
u8 *lut, u16 lut_size,
bool set)
{
enum i40e_status_code status;
struct i40e_aq_desc desc;
struct i40e_aqc_get_set_rss_lut *cmd_resp =
(struct i40e_aqc_get_set_rss_lut *)&desc.params.raw;
if (set)
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_rss_lut);
else
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_get_rss_lut);
/* Indirect command */
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_RD);
cmd_resp->vsi_id =
CPU_TO_LE16((u16)((vsi_id <<
I40E_AQC_SET_RSS_LUT_VSI_ID_SHIFT) &
I40E_AQC_SET_RSS_LUT_VSI_ID_MASK));
cmd_resp->vsi_id |= CPU_TO_LE16((u16)I40E_AQC_SET_RSS_LUT_VSI_VALID);
if (pf_lut)
cmd_resp->flags |= CPU_TO_LE16((u16)
((I40E_AQC_SET_RSS_LUT_TABLE_TYPE_PF <<
I40E_AQC_SET_RSS_LUT_TABLE_TYPE_SHIFT) &
I40E_AQC_SET_RSS_LUT_TABLE_TYPE_MASK));
else
cmd_resp->flags |= CPU_TO_LE16((u16)
((I40E_AQC_SET_RSS_LUT_TABLE_TYPE_VSI <<
I40E_AQC_SET_RSS_LUT_TABLE_TYPE_SHIFT) &
I40E_AQC_SET_RSS_LUT_TABLE_TYPE_MASK));
status = i40e_asq_send_command(hw, &desc, lut, lut_size, NULL);
return status;
}
/**
* i40e_aq_get_rss_lut
* @hw: pointer to the hardware structure
* @vsi_id: vsi fw index
* @pf_lut: for PF table set true, for VSI table set false
* @lut: pointer to the lut buffer provided by the caller
* @lut_size: size of the lut buffer
*
* get the RSS lookup table, PF or VSI type
**/
enum i40e_status_code i40e_aq_get_rss_lut(struct i40e_hw *hw, u16 vsi_id,
bool pf_lut, u8 *lut, u16 lut_size)
{
return i40e_aq_get_set_rss_lut(hw, vsi_id, pf_lut, lut, lut_size,
false);
}
/**
* i40e_aq_set_rss_lut
* @hw: pointer to the hardware structure
* @vsi_id: vsi fw index
* @pf_lut: for PF table set true, for VSI table set false
* @lut: pointer to the lut buffer provided by the caller
* @lut_size: size of the lut buffer
*
* set the RSS lookup table, PF or VSI type
**/
enum i40e_status_code i40e_aq_set_rss_lut(struct i40e_hw *hw, u16 vsi_id,
bool pf_lut, u8 *lut, u16 lut_size)
{
return i40e_aq_get_set_rss_lut(hw, vsi_id, pf_lut, lut, lut_size, true);
}
/**
* i40e_aq_get_set_rss_key
* @hw: pointer to the hw struct
* @vsi_id: vsi fw index
* @key: pointer to key info struct
* @set: set true to set the key, false to get the key
*
* get the RSS key per VSI
**/
STATIC enum i40e_status_code i40e_aq_get_set_rss_key(struct i40e_hw *hw,
u16 vsi_id,
struct i40e_aqc_get_set_rss_key_data *key,
bool set)
{
enum i40e_status_code status;
struct i40e_aq_desc desc;
struct i40e_aqc_get_set_rss_key *cmd_resp =
(struct i40e_aqc_get_set_rss_key *)&desc.params.raw;
u16 key_size = sizeof(struct i40e_aqc_get_set_rss_key_data);
if (set)
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_rss_key);
else
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_get_rss_key);
/* Indirect command */
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_RD);
cmd_resp->vsi_id =
CPU_TO_LE16((u16)((vsi_id <<
I40E_AQC_SET_RSS_KEY_VSI_ID_SHIFT) &
I40E_AQC_SET_RSS_KEY_VSI_ID_MASK));
cmd_resp->vsi_id |= CPU_TO_LE16((u16)I40E_AQC_SET_RSS_KEY_VSI_VALID);
status = i40e_asq_send_command(hw, &desc, key, key_size, NULL);
return status;
}
/**
* i40e_aq_get_rss_key
* @hw: pointer to the hw struct
* @vsi_id: vsi fw index
* @key: pointer to key info struct
*
**/
enum i40e_status_code i40e_aq_get_rss_key(struct i40e_hw *hw,
u16 vsi_id,
struct i40e_aqc_get_set_rss_key_data *key)
{
return i40e_aq_get_set_rss_key(hw, vsi_id, key, false);
}
/**
* i40e_aq_set_rss_key
* @hw: pointer to the hw struct
* @vsi_id: vsi fw index
* @key: pointer to key info struct
*
* set the RSS key per VSI
**/
enum i40e_status_code i40e_aq_set_rss_key(struct i40e_hw *hw,
u16 vsi_id,
struct i40e_aqc_get_set_rss_key_data *key)
{
return i40e_aq_get_set_rss_key(hw, vsi_id, key, true);
}
/* The i40e_ptype_lookup table is used to convert from the 8-bit ptype in the
* hardware to a bit-field that can be used by SW to more easily determine the
* packet type.
*
* Macros are used to shorten the table lines and make this table human
* readable.
*
* We store the PTYPE in the top byte of the bit field - this is just so that
* we can check that the table doesn't have a row missing, as the index into
* the table should be the PTYPE.
*
* Typical work flow:
*
* IF NOT i40e_ptype_lookup[ptype].known
* THEN
* Packet is unknown
* ELSE IF i40e_ptype_lookup[ptype].outer_ip == I40E_RX_PTYPE_OUTER_IP
* Use the rest of the fields to look at the tunnels, inner protocols, etc
* ELSE
* Use the enum i40e_rx_l2_ptype to decode the packet type
* ENDIF
*/
/* macro to make the table lines short */
#define I40E_PTT(PTYPE, OUTER_IP, OUTER_IP_VER, OUTER_FRAG, T, TE, TEF, I, PL)\
{ PTYPE, \
1, \
I40E_RX_PTYPE_OUTER_##OUTER_IP, \
I40E_RX_PTYPE_OUTER_##OUTER_IP_VER, \
I40E_RX_PTYPE_##OUTER_FRAG, \
I40E_RX_PTYPE_TUNNEL_##T, \
I40E_RX_PTYPE_TUNNEL_END_##TE, \
I40E_RX_PTYPE_##TEF, \
I40E_RX_PTYPE_INNER_PROT_##I, \
I40E_RX_PTYPE_PAYLOAD_LAYER_##PL }
#define I40E_PTT_UNUSED_ENTRY(PTYPE) \
{ PTYPE, 0, 0, 0, 0, 0, 0, 0, 0, 0 }
/* shorter macros makes the table fit but are terse */
#define I40E_RX_PTYPE_NOF I40E_RX_PTYPE_NOT_FRAG
#define I40E_RX_PTYPE_FRG I40E_RX_PTYPE_FRAG
#define I40E_RX_PTYPE_INNER_PROT_TS I40E_RX_PTYPE_INNER_PROT_TIMESYNC
/* Lookup table mapping the HW PTYPE to the bit field for decoding */
struct i40e_rx_ptype_decoded i40e_ptype_lookup[] = {
/* L2 Packet types */
I40E_PTT_UNUSED_ENTRY(0),
I40E_PTT(1, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY2),
I40E_PTT(2, L2, NONE, NOF, NONE, NONE, NOF, TS, PAY2),
I40E_PTT(3, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY2),
I40E_PTT_UNUSED_ENTRY(4),
I40E_PTT_UNUSED_ENTRY(5),
I40E_PTT(6, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY2),
I40E_PTT(7, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY2),
I40E_PTT_UNUSED_ENTRY(8),
I40E_PTT_UNUSED_ENTRY(9),
I40E_PTT(10, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY2),
I40E_PTT(11, L2, NONE, NOF, NONE, NONE, NOF, NONE, NONE),
I40E_PTT(12, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(13, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(14, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(15, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(16, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(17, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(18, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(19, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(20, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(21, L2, NONE, NOF, NONE, NONE, NOF, NONE, PAY3),
/* Non Tunneled IPv4 */
I40E_PTT(22, IP, IPV4, FRG, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(23, IP, IPV4, NOF, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(24, IP, IPV4, NOF, NONE, NONE, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(25),
I40E_PTT(26, IP, IPV4, NOF, NONE, NONE, NOF, TCP, PAY4),
I40E_PTT(27, IP, IPV4, NOF, NONE, NONE, NOF, SCTP, PAY4),
I40E_PTT(28, IP, IPV4, NOF, NONE, NONE, NOF, ICMP, PAY4),
/* IPv4 --> IPv4 */
I40E_PTT(29, IP, IPV4, NOF, IP_IP, IPV4, FRG, NONE, PAY3),
I40E_PTT(30, IP, IPV4, NOF, IP_IP, IPV4, NOF, NONE, PAY3),
I40E_PTT(31, IP, IPV4, NOF, IP_IP, IPV4, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(32),
I40E_PTT(33, IP, IPV4, NOF, IP_IP, IPV4, NOF, TCP, PAY4),
I40E_PTT(34, IP, IPV4, NOF, IP_IP, IPV4, NOF, SCTP, PAY4),
I40E_PTT(35, IP, IPV4, NOF, IP_IP, IPV4, NOF, ICMP, PAY4),
/* IPv4 --> IPv6 */
I40E_PTT(36, IP, IPV4, NOF, IP_IP, IPV6, FRG, NONE, PAY3),
I40E_PTT(37, IP, IPV4, NOF, IP_IP, IPV6, NOF, NONE, PAY3),
I40E_PTT(38, IP, IPV4, NOF, IP_IP, IPV6, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(39),
I40E_PTT(40, IP, IPV4, NOF, IP_IP, IPV6, NOF, TCP, PAY4),
I40E_PTT(41, IP, IPV4, NOF, IP_IP, IPV6, NOF, SCTP, PAY4),
I40E_PTT(42, IP, IPV4, NOF, IP_IP, IPV6, NOF, ICMP, PAY4),
/* IPv4 --> GRE/NAT */
I40E_PTT(43, IP, IPV4, NOF, IP_GRENAT, NONE, NOF, NONE, PAY3),
/* IPv4 --> GRE/NAT --> IPv4 */
I40E_PTT(44, IP, IPV4, NOF, IP_GRENAT, IPV4, FRG, NONE, PAY3),
I40E_PTT(45, IP, IPV4, NOF, IP_GRENAT, IPV4, NOF, NONE, PAY3),
I40E_PTT(46, IP, IPV4, NOF, IP_GRENAT, IPV4, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(47),
I40E_PTT(48, IP, IPV4, NOF, IP_GRENAT, IPV4, NOF, TCP, PAY4),
I40E_PTT(49, IP, IPV4, NOF, IP_GRENAT, IPV4, NOF, SCTP, PAY4),
I40E_PTT(50, IP, IPV4, NOF, IP_GRENAT, IPV4, NOF, ICMP, PAY4),
/* IPv4 --> GRE/NAT --> IPv6 */
I40E_PTT(51, IP, IPV4, NOF, IP_GRENAT, IPV6, FRG, NONE, PAY3),
I40E_PTT(52, IP, IPV4, NOF, IP_GRENAT, IPV6, NOF, NONE, PAY3),
I40E_PTT(53, IP, IPV4, NOF, IP_GRENAT, IPV6, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(54),
I40E_PTT(55, IP, IPV4, NOF, IP_GRENAT, IPV6, NOF, TCP, PAY4),
I40E_PTT(56, IP, IPV4, NOF, IP_GRENAT, IPV6, NOF, SCTP, PAY4),
I40E_PTT(57, IP, IPV4, NOF, IP_GRENAT, IPV6, NOF, ICMP, PAY4),
/* IPv4 --> GRE/NAT --> MAC */
I40E_PTT(58, IP, IPV4, NOF, IP_GRENAT_MAC, NONE, NOF, NONE, PAY3),
/* IPv4 --> GRE/NAT --> MAC --> IPv4 */
I40E_PTT(59, IP, IPV4, NOF, IP_GRENAT_MAC, IPV4, FRG, NONE, PAY3),
I40E_PTT(60, IP, IPV4, NOF, IP_GRENAT_MAC, IPV4, NOF, NONE, PAY3),
I40E_PTT(61, IP, IPV4, NOF, IP_GRENAT_MAC, IPV4, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(62),
I40E_PTT(63, IP, IPV4, NOF, IP_GRENAT_MAC, IPV4, NOF, TCP, PAY4),
I40E_PTT(64, IP, IPV4, NOF, IP_GRENAT_MAC, IPV4, NOF, SCTP, PAY4),
I40E_PTT(65, IP, IPV4, NOF, IP_GRENAT_MAC, IPV4, NOF, ICMP, PAY4),
/* IPv4 --> GRE/NAT -> MAC --> IPv6 */
I40E_PTT(66, IP, IPV4, NOF, IP_GRENAT_MAC, IPV6, FRG, NONE, PAY3),
I40E_PTT(67, IP, IPV4, NOF, IP_GRENAT_MAC, IPV6, NOF, NONE, PAY3),
I40E_PTT(68, IP, IPV4, NOF, IP_GRENAT_MAC, IPV6, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(69),
I40E_PTT(70, IP, IPV4, NOF, IP_GRENAT_MAC, IPV6, NOF, TCP, PAY4),
I40E_PTT(71, IP, IPV4, NOF, IP_GRENAT_MAC, IPV6, NOF, SCTP, PAY4),
I40E_PTT(72, IP, IPV4, NOF, IP_GRENAT_MAC, IPV6, NOF, ICMP, PAY4),
/* IPv4 --> GRE/NAT --> MAC/VLAN */
I40E_PTT(73, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, NONE, NOF, NONE, PAY3),
/* IPv4 ---> GRE/NAT -> MAC/VLAN --> IPv4 */
I40E_PTT(74, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, IPV4, FRG, NONE, PAY3),
I40E_PTT(75, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, IPV4, NOF, NONE, PAY3),
I40E_PTT(76, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, IPV4, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(77),
I40E_PTT(78, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, IPV4, NOF, TCP, PAY4),
I40E_PTT(79, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, IPV4, NOF, SCTP, PAY4),
I40E_PTT(80, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, IPV4, NOF, ICMP, PAY4),
/* IPv4 -> GRE/NAT -> MAC/VLAN --> IPv6 */
I40E_PTT(81, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, IPV6, FRG, NONE, PAY3),
I40E_PTT(82, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, IPV6, NOF, NONE, PAY3),
I40E_PTT(83, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, IPV6, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(84),
I40E_PTT(85, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, IPV6, NOF, TCP, PAY4),
I40E_PTT(86, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, IPV6, NOF, SCTP, PAY4),
I40E_PTT(87, IP, IPV4, NOF, IP_GRENAT_MAC_VLAN, IPV6, NOF, ICMP, PAY4),
/* Non Tunneled IPv6 */
I40E_PTT(88, IP, IPV6, FRG, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(89, IP, IPV6, NOF, NONE, NONE, NOF, NONE, PAY3),
I40E_PTT(90, IP, IPV6, NOF, NONE, NONE, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(91),
I40E_PTT(92, IP, IPV6, NOF, NONE, NONE, NOF, TCP, PAY4),
I40E_PTT(93, IP, IPV6, NOF, NONE, NONE, NOF, SCTP, PAY4),
I40E_PTT(94, IP, IPV6, NOF, NONE, NONE, NOF, ICMP, PAY4),
/* IPv6 --> IPv4 */
I40E_PTT(95, IP, IPV6, NOF, IP_IP, IPV4, FRG, NONE, PAY3),
I40E_PTT(96, IP, IPV6, NOF, IP_IP, IPV4, NOF, NONE, PAY3),
I40E_PTT(97, IP, IPV6, NOF, IP_IP, IPV4, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(98),
I40E_PTT(99, IP, IPV6, NOF, IP_IP, IPV4, NOF, TCP, PAY4),
I40E_PTT(100, IP, IPV6, NOF, IP_IP, IPV4, NOF, SCTP, PAY4),
I40E_PTT(101, IP, IPV6, NOF, IP_IP, IPV4, NOF, ICMP, PAY4),
/* IPv6 --> IPv6 */
I40E_PTT(102, IP, IPV6, NOF, IP_IP, IPV6, FRG, NONE, PAY3),
I40E_PTT(103, IP, IPV6, NOF, IP_IP, IPV6, NOF, NONE, PAY3),
I40E_PTT(104, IP, IPV6, NOF, IP_IP, IPV6, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(105),
I40E_PTT(106, IP, IPV6, NOF, IP_IP, IPV6, NOF, TCP, PAY4),
I40E_PTT(107, IP, IPV6, NOF, IP_IP, IPV6, NOF, SCTP, PAY4),
I40E_PTT(108, IP, IPV6, NOF, IP_IP, IPV6, NOF, ICMP, PAY4),
/* IPv6 --> GRE/NAT */
I40E_PTT(109, IP, IPV6, NOF, IP_GRENAT, NONE, NOF, NONE, PAY3),
/* IPv6 --> GRE/NAT -> IPv4 */
I40E_PTT(110, IP, IPV6, NOF, IP_GRENAT, IPV4, FRG, NONE, PAY3),
I40E_PTT(111, IP, IPV6, NOF, IP_GRENAT, IPV4, NOF, NONE, PAY3),
I40E_PTT(112, IP, IPV6, NOF, IP_GRENAT, IPV4, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(113),
I40E_PTT(114, IP, IPV6, NOF, IP_GRENAT, IPV4, NOF, TCP, PAY4),
I40E_PTT(115, IP, IPV6, NOF, IP_GRENAT, IPV4, NOF, SCTP, PAY4),
I40E_PTT(116, IP, IPV6, NOF, IP_GRENAT, IPV4, NOF, ICMP, PAY4),
/* IPv6 --> GRE/NAT -> IPv6 */
I40E_PTT(117, IP, IPV6, NOF, IP_GRENAT, IPV6, FRG, NONE, PAY3),
I40E_PTT(118, IP, IPV6, NOF, IP_GRENAT, IPV6, NOF, NONE, PAY3),
I40E_PTT(119, IP, IPV6, NOF, IP_GRENAT, IPV6, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(120),
I40E_PTT(121, IP, IPV6, NOF, IP_GRENAT, IPV6, NOF, TCP, PAY4),
I40E_PTT(122, IP, IPV6, NOF, IP_GRENAT, IPV6, NOF, SCTP, PAY4),
I40E_PTT(123, IP, IPV6, NOF, IP_GRENAT, IPV6, NOF, ICMP, PAY4),
/* IPv6 --> GRE/NAT -> MAC */
I40E_PTT(124, IP, IPV6, NOF, IP_GRENAT_MAC, NONE, NOF, NONE, PAY3),
/* IPv6 --> GRE/NAT -> MAC -> IPv4 */
I40E_PTT(125, IP, IPV6, NOF, IP_GRENAT_MAC, IPV4, FRG, NONE, PAY3),
I40E_PTT(126, IP, IPV6, NOF, IP_GRENAT_MAC, IPV4, NOF, NONE, PAY3),
I40E_PTT(127, IP, IPV6, NOF, IP_GRENAT_MAC, IPV4, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(128),
I40E_PTT(129, IP, IPV6, NOF, IP_GRENAT_MAC, IPV4, NOF, TCP, PAY4),
I40E_PTT(130, IP, IPV6, NOF, IP_GRENAT_MAC, IPV4, NOF, SCTP, PAY4),
I40E_PTT(131, IP, IPV6, NOF, IP_GRENAT_MAC, IPV4, NOF, ICMP, PAY4),
/* IPv6 --> GRE/NAT -> MAC -> IPv6 */
I40E_PTT(132, IP, IPV6, NOF, IP_GRENAT_MAC, IPV6, FRG, NONE, PAY3),
I40E_PTT(133, IP, IPV6, NOF, IP_GRENAT_MAC, IPV6, NOF, NONE, PAY3),
I40E_PTT(134, IP, IPV6, NOF, IP_GRENAT_MAC, IPV6, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(135),
I40E_PTT(136, IP, IPV6, NOF, IP_GRENAT_MAC, IPV6, NOF, TCP, PAY4),
I40E_PTT(137, IP, IPV6, NOF, IP_GRENAT_MAC, IPV6, NOF, SCTP, PAY4),
I40E_PTT(138, IP, IPV6, NOF, IP_GRENAT_MAC, IPV6, NOF, ICMP, PAY4),
/* IPv6 --> GRE/NAT -> MAC/VLAN */
I40E_PTT(139, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, NONE, NOF, NONE, PAY3),
/* IPv6 --> GRE/NAT -> MAC/VLAN --> IPv4 */
I40E_PTT(140, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, IPV4, FRG, NONE, PAY3),
I40E_PTT(141, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, IPV4, NOF, NONE, PAY3),
I40E_PTT(142, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, IPV4, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(143),
I40E_PTT(144, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, IPV4, NOF, TCP, PAY4),
I40E_PTT(145, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, IPV4, NOF, SCTP, PAY4),
I40E_PTT(146, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, IPV4, NOF, ICMP, PAY4),
/* IPv6 --> GRE/NAT -> MAC/VLAN --> IPv6 */
I40E_PTT(147, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, IPV6, FRG, NONE, PAY3),
I40E_PTT(148, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, IPV6, NOF, NONE, PAY3),
I40E_PTT(149, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, IPV6, NOF, UDP, PAY4),
I40E_PTT_UNUSED_ENTRY(150),
I40E_PTT(151, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, IPV6, NOF, TCP, PAY4),
I40E_PTT(152, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, IPV6, NOF, SCTP, PAY4),
I40E_PTT(153, IP, IPV6, NOF, IP_GRENAT_MAC_VLAN, IPV6, NOF, ICMP, PAY4),
/* unused entries */
I40E_PTT_UNUSED_ENTRY(154),
I40E_PTT_UNUSED_ENTRY(155),
I40E_PTT_UNUSED_ENTRY(156),
I40E_PTT_UNUSED_ENTRY(157),
I40E_PTT_UNUSED_ENTRY(158),
I40E_PTT_UNUSED_ENTRY(159),
I40E_PTT_UNUSED_ENTRY(160),
I40E_PTT_UNUSED_ENTRY(161),
I40E_PTT_UNUSED_ENTRY(162),
I40E_PTT_UNUSED_ENTRY(163),
I40E_PTT_UNUSED_ENTRY(164),
I40E_PTT_UNUSED_ENTRY(165),
I40E_PTT_UNUSED_ENTRY(166),
I40E_PTT_UNUSED_ENTRY(167),
I40E_PTT_UNUSED_ENTRY(168),
I40E_PTT_UNUSED_ENTRY(169),
I40E_PTT_UNUSED_ENTRY(170),
I40E_PTT_UNUSED_ENTRY(171),
I40E_PTT_UNUSED_ENTRY(172),
I40E_PTT_UNUSED_ENTRY(173),
I40E_PTT_UNUSED_ENTRY(174),
I40E_PTT_UNUSED_ENTRY(175),
I40E_PTT_UNUSED_ENTRY(176),
I40E_PTT_UNUSED_ENTRY(177),
I40E_PTT_UNUSED_ENTRY(178),
I40E_PTT_UNUSED_ENTRY(179),
I40E_PTT_UNUSED_ENTRY(180),
I40E_PTT_UNUSED_ENTRY(181),
I40E_PTT_UNUSED_ENTRY(182),
I40E_PTT_UNUSED_ENTRY(183),
I40E_PTT_UNUSED_ENTRY(184),
I40E_PTT_UNUSED_ENTRY(185),
I40E_PTT_UNUSED_ENTRY(186),
I40E_PTT_UNUSED_ENTRY(187),
I40E_PTT_UNUSED_ENTRY(188),
I40E_PTT_UNUSED_ENTRY(189),
I40E_PTT_UNUSED_ENTRY(190),
I40E_PTT_UNUSED_ENTRY(191),
I40E_PTT_UNUSED_ENTRY(192),
I40E_PTT_UNUSED_ENTRY(193),
I40E_PTT_UNUSED_ENTRY(194),
I40E_PTT_UNUSED_ENTRY(195),
I40E_PTT_UNUSED_ENTRY(196),
I40E_PTT_UNUSED_ENTRY(197),
I40E_PTT_UNUSED_ENTRY(198),
I40E_PTT_UNUSED_ENTRY(199),
I40E_PTT_UNUSED_ENTRY(200),
I40E_PTT_UNUSED_ENTRY(201),
I40E_PTT_UNUSED_ENTRY(202),
I40E_PTT_UNUSED_ENTRY(203),
I40E_PTT_UNUSED_ENTRY(204),
I40E_PTT_UNUSED_ENTRY(205),
I40E_PTT_UNUSED_ENTRY(206),
I40E_PTT_UNUSED_ENTRY(207),
I40E_PTT_UNUSED_ENTRY(208),
I40E_PTT_UNUSED_ENTRY(209),
I40E_PTT_UNUSED_ENTRY(210),
I40E_PTT_UNUSED_ENTRY(211),
I40E_PTT_UNUSED_ENTRY(212),
I40E_PTT_UNUSED_ENTRY(213),
I40E_PTT_UNUSED_ENTRY(214),
I40E_PTT_UNUSED_ENTRY(215),
I40E_PTT_UNUSED_ENTRY(216),
I40E_PTT_UNUSED_ENTRY(217),
I40E_PTT_UNUSED_ENTRY(218),
I40E_PTT_UNUSED_ENTRY(219),
I40E_PTT_UNUSED_ENTRY(220),
I40E_PTT_UNUSED_ENTRY(221),
I40E_PTT_UNUSED_ENTRY(222),
I40E_PTT_UNUSED_ENTRY(223),
I40E_PTT_UNUSED_ENTRY(224),
I40E_PTT_UNUSED_ENTRY(225),
I40E_PTT_UNUSED_ENTRY(226),
I40E_PTT_UNUSED_ENTRY(227),
I40E_PTT_UNUSED_ENTRY(228),
I40E_PTT_UNUSED_ENTRY(229),
I40E_PTT_UNUSED_ENTRY(230),
I40E_PTT_UNUSED_ENTRY(231),
I40E_PTT_UNUSED_ENTRY(232),
I40E_PTT_UNUSED_ENTRY(233),
I40E_PTT_UNUSED_ENTRY(234),
I40E_PTT_UNUSED_ENTRY(235),
I40E_PTT_UNUSED_ENTRY(236),
I40E_PTT_UNUSED_ENTRY(237),
I40E_PTT_UNUSED_ENTRY(238),
I40E_PTT_UNUSED_ENTRY(239),
I40E_PTT_UNUSED_ENTRY(240),
I40E_PTT_UNUSED_ENTRY(241),
I40E_PTT_UNUSED_ENTRY(242),
I40E_PTT_UNUSED_ENTRY(243),
I40E_PTT_UNUSED_ENTRY(244),
I40E_PTT_UNUSED_ENTRY(245),
I40E_PTT_UNUSED_ENTRY(246),
I40E_PTT_UNUSED_ENTRY(247),
I40E_PTT_UNUSED_ENTRY(248),
I40E_PTT_UNUSED_ENTRY(249),
I40E_PTT_UNUSED_ENTRY(250),
I40E_PTT_UNUSED_ENTRY(251),
I40E_PTT_UNUSED_ENTRY(252),
I40E_PTT_UNUSED_ENTRY(253),
I40E_PTT_UNUSED_ENTRY(254),
I40E_PTT_UNUSED_ENTRY(255)
};
/**
* i40e_validate_mac_addr - Validate unicast MAC address
* @mac_addr: pointer to MAC address
*
* Tests a MAC address to ensure it is a valid Individual Address
**/
enum i40e_status_code i40e_validate_mac_addr(u8 *mac_addr)
{
enum i40e_status_code status = I40E_SUCCESS;
DEBUGFUNC("i40e_validate_mac_addr");
/* Broadcast addresses ARE multicast addresses
* Make sure it is not a multicast address
* Reject the zero address
*/
if (I40E_IS_MULTICAST(mac_addr) ||
(mac_addr[0] == 0 && mac_addr[1] == 0 && mac_addr[2] == 0 &&
mac_addr[3] == 0 && mac_addr[4] == 0 && mac_addr[5] == 0))
status = I40E_ERR_INVALID_MAC_ADDR;
return status;
}
#ifdef PF_DRIVER
/**
* i40e_init_shared_code - Initialize the shared code
* @hw: pointer to hardware structure
*
* This assigns the MAC type and PHY code and inits the NVM.
* Does not touch the hardware. This function must be called prior to any
* other function in the shared code. The i40e_hw structure should be
* memset to 0 prior to calling this function. The following fields in
* hw structure should be filled in prior to calling this function:
* hw_addr, back, device_id, vendor_id, subsystem_device_id,
* subsystem_vendor_id, and revision_id
**/
enum i40e_status_code i40e_init_shared_code(struct i40e_hw *hw)
{
enum i40e_status_code status = I40E_SUCCESS;
u32 port, ari, func_rid;
DEBUGFUNC("i40e_init_shared_code");
i40e_set_mac_type(hw);
switch (hw->mac.type) {
case I40E_MAC_XL710:
case I40E_MAC_X722:
break;
default:
return I40E_ERR_DEVICE_NOT_SUPPORTED;
}
hw->phy.get_link_info = true;
/* Determine port number and PF number*/
port = (rd32(hw, I40E_PFGEN_PORTNUM) & I40E_PFGEN_PORTNUM_PORT_NUM_MASK)
>> I40E_PFGEN_PORTNUM_PORT_NUM_SHIFT;
hw->port = (u8)port;
ari = (rd32(hw, I40E_GLPCI_CAPSUP) & I40E_GLPCI_CAPSUP_ARI_EN_MASK) >>
I40E_GLPCI_CAPSUP_ARI_EN_SHIFT;
func_rid = rd32(hw, I40E_PF_FUNC_RID);
if (ari)
hw->pf_id = (u8)(func_rid & 0xff);
else
hw->pf_id = (u8)(func_rid & 0x7);
if (hw->mac.type == I40E_MAC_X722)
hw->flags |= I40E_HW_FLAG_AQ_SRCTL_ACCESS_ENABLE |
I40E_HW_FLAG_NVM_READ_REQUIRES_LOCK;
status = i40e_init_nvm(hw);
return status;
}
/**
* i40e_aq_mac_address_read - Retrieve the MAC addresses
* @hw: pointer to the hw struct
* @flags: a return indicator of what addresses were added to the addr store
* @addrs: the requestor's mac addr store
* @cmd_details: pointer to command details structure or NULL
**/
STATIC enum i40e_status_code i40e_aq_mac_address_read(struct i40e_hw *hw,
u16 *flags,
struct i40e_aqc_mac_address_read_data *addrs,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_mac_address_read *cmd_data =
(struct i40e_aqc_mac_address_read *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_mac_address_read);
desc.flags |= CPU_TO_LE16(I40E_AQ_FLAG_BUF);
status = i40e_asq_send_command(hw, &desc, addrs,
sizeof(*addrs), cmd_details);
*flags = LE16_TO_CPU(cmd_data->command_flags);
return status;
}
/**
* i40e_aq_mac_address_write - Change the MAC addresses
* @hw: pointer to the hw struct
* @flags: indicates which MAC to be written
* @mac_addr: address to write
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_mac_address_write(struct i40e_hw *hw,
u16 flags, u8 *mac_addr,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_mac_address_write *cmd_data =
(struct i40e_aqc_mac_address_write *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_mac_address_write);
cmd_data->command_flags = CPU_TO_LE16(flags);
cmd_data->mac_sah = CPU_TO_LE16((u16)mac_addr[0] << 8 | mac_addr[1]);
cmd_data->mac_sal = CPU_TO_LE32(((u32)mac_addr[2] << 24) |
((u32)mac_addr[3] << 16) |
((u32)mac_addr[4] << 8) |
mac_addr[5]);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_get_mac_addr - get MAC address
* @hw: pointer to the HW structure
* @mac_addr: pointer to MAC address
*
* Reads the adapter's MAC address from register
**/
enum i40e_status_code i40e_get_mac_addr(struct i40e_hw *hw, u8 *mac_addr)
{
struct i40e_aqc_mac_address_read_data addrs;
enum i40e_status_code status;
u16 flags = 0;
status = i40e_aq_mac_address_read(hw, &flags, &addrs, NULL);
if (flags & I40E_AQC_LAN_ADDR_VALID)
i40e_memcpy(mac_addr, &addrs.pf_lan_mac, sizeof(addrs.pf_lan_mac),
I40E_NONDMA_TO_NONDMA);
return status;
}
/**
* i40e_get_port_mac_addr - get Port MAC address
* @hw: pointer to the HW structure
* @mac_addr: pointer to Port MAC address
*
* Reads the adapter's Port MAC address
**/
enum i40e_status_code i40e_get_port_mac_addr(struct i40e_hw *hw, u8 *mac_addr)
{
struct i40e_aqc_mac_address_read_data addrs;
enum i40e_status_code status;
u16 flags = 0;
status = i40e_aq_mac_address_read(hw, &flags, &addrs, NULL);
if (status)
return status;
if (flags & I40E_AQC_PORT_ADDR_VALID)
i40e_memcpy(mac_addr, &addrs.port_mac, sizeof(addrs.port_mac),
I40E_NONDMA_TO_NONDMA);
else
status = I40E_ERR_INVALID_MAC_ADDR;
return status;
}
/**
* i40e_pre_tx_queue_cfg - pre tx queue configure
* @hw: pointer to the HW structure
* @queue: target pf queue index
* @enable: state change request
*
* Handles hw requirement to indicate intention to enable
* or disable target queue.
**/
void i40e_pre_tx_queue_cfg(struct i40e_hw *hw, u32 queue, bool enable)
{
u32 abs_queue_idx = hw->func_caps.base_queue + queue;
u32 reg_block = 0;
u32 reg_val;
if (abs_queue_idx >= 128) {
reg_block = abs_queue_idx / 128;
abs_queue_idx %= 128;
}
reg_val = rd32(hw, I40E_GLLAN_TXPRE_QDIS(reg_block));
reg_val &= ~I40E_GLLAN_TXPRE_QDIS_QINDX_MASK;
reg_val |= (abs_queue_idx << I40E_GLLAN_TXPRE_QDIS_QINDX_SHIFT);
if (enable)
reg_val |= I40E_GLLAN_TXPRE_QDIS_CLEAR_QDIS_MASK;
else
reg_val |= I40E_GLLAN_TXPRE_QDIS_SET_QDIS_MASK;
wr32(hw, I40E_GLLAN_TXPRE_QDIS(reg_block), reg_val);
}
/**
* i40e_get_san_mac_addr - get SAN MAC address
* @hw: pointer to the HW structure
* @mac_addr: pointer to SAN MAC address
*
* Reads the adapter's SAN MAC address from NVM
**/
enum i40e_status_code i40e_get_san_mac_addr(struct i40e_hw *hw,
u8 *mac_addr)
{
struct i40e_aqc_mac_address_read_data addrs;
enum i40e_status_code status;
u16 flags = 0;
status = i40e_aq_mac_address_read(hw, &flags, &addrs, NULL);
if (status)
return status;
if (flags & I40E_AQC_SAN_ADDR_VALID)
i40e_memcpy(mac_addr, &addrs.pf_san_mac, sizeof(addrs.pf_san_mac),
I40E_NONDMA_TO_NONDMA);
else
status = I40E_ERR_INVALID_MAC_ADDR;
return status;
}
/**
* i40e_read_pba_string - Reads part number string from EEPROM
* @hw: pointer to hardware structure
* @pba_num: stores the part number string from the EEPROM
* @pba_num_size: part number string buffer length
*
* Reads the part number string from the EEPROM.
**/
enum i40e_status_code i40e_read_pba_string(struct i40e_hw *hw, u8 *pba_num,
u32 pba_num_size)
{
enum i40e_status_code status = I40E_SUCCESS;
u16 pba_word = 0;
u16 pba_size = 0;
u16 pba_ptr = 0;
u16 i = 0;
status = i40e_read_nvm_word(hw, I40E_SR_PBA_FLAGS, &pba_word);
if ((status != I40E_SUCCESS) || (pba_word != 0xFAFA)) {
DEBUGOUT("Failed to read PBA flags or flag is invalid.\n");
return status;
}
status = i40e_read_nvm_word(hw, I40E_SR_PBA_BLOCK_PTR, &pba_ptr);
if (status != I40E_SUCCESS) {
DEBUGOUT("Failed to read PBA Block pointer.\n");
return status;
}
status = i40e_read_nvm_word(hw, pba_ptr, &pba_size);
if (status != I40E_SUCCESS) {
DEBUGOUT("Failed to read PBA Block size.\n");
return status;
}
/* Subtract one to get PBA word count (PBA Size word is included in
* total size)
*/
pba_size--;
if (pba_num_size < (((u32)pba_size * 2) + 1)) {
DEBUGOUT("Buffer to small for PBA data.\n");
return I40E_ERR_PARAM;
}
for (i = 0; i < pba_size; i++) {
status = i40e_read_nvm_word(hw, (pba_ptr + 1) + i, &pba_word);
if (status != I40E_SUCCESS) {
DEBUGOUT1("Failed to read PBA Block word %d.\n", i);
return status;
}
pba_num[(i * 2)] = (pba_word >> 8) & 0xFF;
pba_num[(i * 2) + 1] = pba_word & 0xFF;
}
pba_num[(pba_size * 2)] = '\0';
return status;
}
/**
* i40e_get_media_type - Gets media type
* @hw: pointer to the hardware structure
**/
STATIC enum i40e_media_type i40e_get_media_type(struct i40e_hw *hw)
{
enum i40e_media_type media;
switch (hw->phy.link_info.phy_type) {
case I40E_PHY_TYPE_10GBASE_SR:
case I40E_PHY_TYPE_10GBASE_LR:
case I40E_PHY_TYPE_1000BASE_SX:
case I40E_PHY_TYPE_1000BASE_LX:
case I40E_PHY_TYPE_40GBASE_SR4:
case I40E_PHY_TYPE_40GBASE_LR4:
case I40E_PHY_TYPE_25GBASE_LR:
case I40E_PHY_TYPE_25GBASE_SR:
media = I40E_MEDIA_TYPE_FIBER;
break;
case I40E_PHY_TYPE_100BASE_TX:
case I40E_PHY_TYPE_1000BASE_T:
case I40E_PHY_TYPE_10GBASE_T:
media = I40E_MEDIA_TYPE_BASET;
break;
case I40E_PHY_TYPE_10GBASE_CR1_CU:
case I40E_PHY_TYPE_40GBASE_CR4_CU:
case I40E_PHY_TYPE_10GBASE_CR1:
case I40E_PHY_TYPE_40GBASE_CR4:
case I40E_PHY_TYPE_10GBASE_SFPP_CU:
case I40E_PHY_TYPE_40GBASE_AOC:
case I40E_PHY_TYPE_10GBASE_AOC:
case I40E_PHY_TYPE_25GBASE_CR:
case I40E_PHY_TYPE_25GBASE_AOC:
case I40E_PHY_TYPE_25GBASE_ACC:
media = I40E_MEDIA_TYPE_DA;
break;
case I40E_PHY_TYPE_1000BASE_KX:
case I40E_PHY_TYPE_10GBASE_KX4:
case I40E_PHY_TYPE_10GBASE_KR:
case I40E_PHY_TYPE_40GBASE_KR4:
case I40E_PHY_TYPE_20GBASE_KR2:
case I40E_PHY_TYPE_25GBASE_KR:
media = I40E_MEDIA_TYPE_BACKPLANE;
break;
case I40E_PHY_TYPE_SGMII:
case I40E_PHY_TYPE_XAUI:
case I40E_PHY_TYPE_XFI:
case I40E_PHY_TYPE_XLAUI:
case I40E_PHY_TYPE_XLPPI:
default:
media = I40E_MEDIA_TYPE_UNKNOWN;
break;
}
return media;
}
#define I40E_PF_RESET_WAIT_COUNT 200
/**
* i40e_pf_reset - Reset the PF
* @hw: pointer to the hardware structure
*
* Assuming someone else has triggered a global reset,
* assure the global reset is complete and then reset the PF
**/
enum i40e_status_code i40e_pf_reset(struct i40e_hw *hw)
{
u32 cnt = 0;
u32 cnt1 = 0;
u32 reg = 0;
u32 grst_del;
/* Poll for Global Reset steady state in case of recent GRST.
* The grst delay value is in 100ms units, and we'll wait a
* couple counts longer to be sure we don't just miss the end.
*/
grst_del = (rd32(hw, I40E_GLGEN_RSTCTL) &
I40E_GLGEN_RSTCTL_GRSTDEL_MASK) >>
I40E_GLGEN_RSTCTL_GRSTDEL_SHIFT;
grst_del = grst_del * 20;
for (cnt = 0; cnt < grst_del; cnt++) {
reg = rd32(hw, I40E_GLGEN_RSTAT);
if (!(reg & I40E_GLGEN_RSTAT_DEVSTATE_MASK))
break;
i40e_msec_delay(100);
}
if (reg & I40E_GLGEN_RSTAT_DEVSTATE_MASK) {
DEBUGOUT("Global reset polling failed to complete.\n");
return I40E_ERR_RESET_FAILED;
}
/* Now Wait for the FW to be ready */
for (cnt1 = 0; cnt1 < I40E_PF_RESET_WAIT_COUNT; cnt1++) {
reg = rd32(hw, I40E_GLNVM_ULD);
reg &= (I40E_GLNVM_ULD_CONF_CORE_DONE_MASK |
I40E_GLNVM_ULD_CONF_GLOBAL_DONE_MASK);
if (reg == (I40E_GLNVM_ULD_CONF_CORE_DONE_MASK |
I40E_GLNVM_ULD_CONF_GLOBAL_DONE_MASK)) {
DEBUGOUT1("Core and Global modules ready %d\n", cnt1);
break;
}
i40e_msec_delay(10);
}
if (!(reg & (I40E_GLNVM_ULD_CONF_CORE_DONE_MASK |
I40E_GLNVM_ULD_CONF_GLOBAL_DONE_MASK))) {
DEBUGOUT("wait for FW Reset complete timedout\n");
DEBUGOUT1("I40E_GLNVM_ULD = 0x%x\n", reg);
return I40E_ERR_RESET_FAILED;
}
/* If there was a Global Reset in progress when we got here,
* we don't need to do the PF Reset
*/
if (!cnt) {
u32 reg2 = 0;
reg = rd32(hw, I40E_PFGEN_CTRL);
wr32(hw, I40E_PFGEN_CTRL,
(reg | I40E_PFGEN_CTRL_PFSWR_MASK));
for (cnt = 0; cnt < I40E_PF_RESET_WAIT_COUNT; cnt++) {
reg = rd32(hw, I40E_PFGEN_CTRL);
if (!(reg & I40E_PFGEN_CTRL_PFSWR_MASK))
break;
reg2 = rd32(hw, I40E_GLGEN_RSTAT);
if (reg2 & I40E_GLGEN_RSTAT_DEVSTATE_MASK) {
DEBUGOUT("Core reset upcoming. Skipping PF reset request.\n");
DEBUGOUT1("I40E_GLGEN_RSTAT = 0x%x\n", reg2);
return I40E_ERR_NOT_READY;
}
i40e_msec_delay(1);
}
if (reg & I40E_PFGEN_CTRL_PFSWR_MASK) {
DEBUGOUT("PF reset polling failed to complete.\n");
return I40E_ERR_RESET_FAILED;
}
}
i40e_clear_pxe_mode(hw);
return I40E_SUCCESS;
}
/**
* i40e_clear_hw - clear out any left over hw state
* @hw: pointer to the hw struct
*
* Clear queues and interrupts, typically called at init time,
* but after the capabilities have been found so we know how many
* queues and msix vectors have been allocated.
**/
void i40e_clear_hw(struct i40e_hw *hw)
{
u32 num_queues, base_queue;
u32 num_pf_int;
u32 num_vf_int;
u32 num_vfs;
u32 i, j;
u32 val;
u32 eol = 0x7ff;
/* get number of interrupts, queues, and vfs */
val = rd32(hw, I40E_GLPCI_CNF2);
num_pf_int = (val & I40E_GLPCI_CNF2_MSI_X_PF_N_MASK) >>
I40E_GLPCI_CNF2_MSI_X_PF_N_SHIFT;
num_vf_int = (val & I40E_GLPCI_CNF2_MSI_X_VF_N_MASK) >>
I40E_GLPCI_CNF2_MSI_X_VF_N_SHIFT;
val = rd32(hw, I40E_PFLAN_QALLOC);
base_queue = (val & I40E_PFLAN_QALLOC_FIRSTQ_MASK) >>
I40E_PFLAN_QALLOC_FIRSTQ_SHIFT;
j = (val & I40E_PFLAN_QALLOC_LASTQ_MASK) >>
I40E_PFLAN_QALLOC_LASTQ_SHIFT;
if (val & I40E_PFLAN_QALLOC_VALID_MASK)
num_queues = (j - base_queue) + 1;
else
num_queues = 0;
val = rd32(hw, I40E_PF_VT_PFALLOC);
i = (val & I40E_PF_VT_PFALLOC_FIRSTVF_MASK) >>
I40E_PF_VT_PFALLOC_FIRSTVF_SHIFT;
j = (val & I40E_PF_VT_PFALLOC_LASTVF_MASK) >>
I40E_PF_VT_PFALLOC_LASTVF_SHIFT;
if (val & I40E_PF_VT_PFALLOC_VALID_MASK)
num_vfs = (j - i) + 1;
else
num_vfs = 0;
/* stop all the interrupts */
wr32(hw, I40E_PFINT_ICR0_ENA, 0);
val = 0x3 << I40E_PFINT_DYN_CTLN_ITR_INDX_SHIFT;
for (i = 0; i < num_pf_int - 2; i++)
wr32(hw, I40E_PFINT_DYN_CTLN(i), val);
/* Set the FIRSTQ_INDX field to 0x7FF in PFINT_LNKLSTx */
val = eol << I40E_PFINT_LNKLST0_FIRSTQ_INDX_SHIFT;
wr32(hw, I40E_PFINT_LNKLST0, val);
for (i = 0; i < num_pf_int - 2; i++)
wr32(hw, I40E_PFINT_LNKLSTN(i), val);
val = eol << I40E_VPINT_LNKLST0_FIRSTQ_INDX_SHIFT;
for (i = 0; i < num_vfs; i++)
wr32(hw, I40E_VPINT_LNKLST0(i), val);
for (i = 0; i < num_vf_int - 2; i++)
wr32(hw, I40E_VPINT_LNKLSTN(i), val);
/* warn the HW of the coming Tx disables */
for (i = 0; i < num_queues; i++) {
u32 abs_queue_idx = base_queue + i;
u32 reg_block = 0;
if (abs_queue_idx >= 128) {
reg_block = abs_queue_idx / 128;
abs_queue_idx %= 128;
}
val = rd32(hw, I40E_GLLAN_TXPRE_QDIS(reg_block));
val &= ~I40E_GLLAN_TXPRE_QDIS_QINDX_MASK;
val |= (abs_queue_idx << I40E_GLLAN_TXPRE_QDIS_QINDX_SHIFT);
val |= I40E_GLLAN_TXPRE_QDIS_SET_QDIS_MASK;
wr32(hw, I40E_GLLAN_TXPRE_QDIS(reg_block), val);
}
i40e_usec_delay(400);
/* stop all the queues */
for (i = 0; i < num_queues; i++) {
wr32(hw, I40E_QINT_TQCTL(i), 0);
wr32(hw, I40E_QTX_ENA(i), 0);
wr32(hw, I40E_QINT_RQCTL(i), 0);
wr32(hw, I40E_QRX_ENA(i), 0);
}
/* short wait for all queue disables to settle */
i40e_usec_delay(50);
}
/**
* i40e_clear_pxe_mode - clear pxe operations mode
* @hw: pointer to the hw struct
*
* Make sure all PXE mode settings are cleared, including things
* like descriptor fetch/write-back mode.
**/
void i40e_clear_pxe_mode(struct i40e_hw *hw)
{
if (i40e_check_asq_alive(hw))
i40e_aq_clear_pxe_mode(hw, NULL);
}
/**
* i40e_led_is_mine - helper to find matching led
* @hw: pointer to the hw struct
* @idx: index into GPIO registers
*
* returns: 0 if no match, otherwise the value of the GPIO_CTL register
*/
static u32 i40e_led_is_mine(struct i40e_hw *hw, int idx)
{
u32 gpio_val = 0;
u32 port;
if (!hw->func_caps.led[idx])
return 0;
gpio_val = rd32(hw, I40E_GLGEN_GPIO_CTL(idx));
port = (gpio_val & I40E_GLGEN_GPIO_CTL_PRT_NUM_MASK) >>
I40E_GLGEN_GPIO_CTL_PRT_NUM_SHIFT;
/* if PRT_NUM_NA is 1 then this LED is not port specific, OR
* if it is not our port then ignore
*/
if ((gpio_val & I40E_GLGEN_GPIO_CTL_PRT_NUM_NA_MASK) ||
(port != hw->port))
return 0;
return gpio_val;
}
#define I40E_COMBINED_ACTIVITY 0xA
#define I40E_FILTER_ACTIVITY 0xE
#define I40E_LINK_ACTIVITY 0xC
#define I40E_MAC_ACTIVITY 0xD
#define I40E_LED0 22
/**
* i40e_led_get - return current on/off mode
* @hw: pointer to the hw struct
*
* The value returned is the 'mode' field as defined in the
* GPIO register definitions: 0x0 = off, 0xf = on, and other
* values are variations of possible behaviors relating to
* blink, link, and wire.
**/
u32 i40e_led_get(struct i40e_hw *hw)
{
u32 current_mode = 0;
u32 mode = 0;
int i;
/* as per the documentation GPIO 22-29 are the LED
* GPIO pins named LED0..LED7
*/
for (i = I40E_LED0; i <= I40E_GLGEN_GPIO_CTL_MAX_INDEX; i++) {
u32 gpio_val = i40e_led_is_mine(hw, i);
if (!gpio_val)
continue;
/* ignore gpio LED src mode entries related to the activity
* LEDs
*/
current_mode = ((gpio_val & I40E_GLGEN_GPIO_CTL_LED_MODE_MASK)
>> I40E_GLGEN_GPIO_CTL_LED_MODE_SHIFT);
switch (current_mode) {
case I40E_COMBINED_ACTIVITY:
case I40E_FILTER_ACTIVITY:
case I40E_MAC_ACTIVITY:
case I40E_LINK_ACTIVITY:
continue;
default:
break;
}
mode = (gpio_val & I40E_GLGEN_GPIO_CTL_LED_MODE_MASK) >>
I40E_GLGEN_GPIO_CTL_LED_MODE_SHIFT;
break;
}
return mode;
}
/**
* i40e_led_set - set new on/off mode
* @hw: pointer to the hw struct
* @mode: 0=off, 0xf=on (else see manual for mode details)
* @blink: true if the LED should blink when on, false if steady
*
* if this function is used to turn on the blink it should
* be used to disable the blink when restoring the original state.
**/
void i40e_led_set(struct i40e_hw *hw, u32 mode, bool blink)
{
u32 current_mode = 0;
int i;
if (mode & 0xfffffff0)
DEBUGOUT1("invalid mode passed in %X\n", mode);
/* as per the documentation GPIO 22-29 are the LED
* GPIO pins named LED0..LED7
*/
for (i = I40E_LED0; i <= I40E_GLGEN_GPIO_CTL_MAX_INDEX; i++) {
u32 gpio_val = i40e_led_is_mine(hw, i);
if (!gpio_val)
continue;
/* ignore gpio LED src mode entries related to the activity
* LEDs
*/
current_mode = ((gpio_val & I40E_GLGEN_GPIO_CTL_LED_MODE_MASK)
>> I40E_GLGEN_GPIO_CTL_LED_MODE_SHIFT);
switch (current_mode) {
case I40E_COMBINED_ACTIVITY:
case I40E_FILTER_ACTIVITY:
case I40E_MAC_ACTIVITY:
case I40E_LINK_ACTIVITY:
continue;
default:
break;
}
gpio_val &= ~I40E_GLGEN_GPIO_CTL_LED_MODE_MASK;
/* this & is a bit of paranoia, but serves as a range check */
gpio_val |= ((mode << I40E_GLGEN_GPIO_CTL_LED_MODE_SHIFT) &
I40E_GLGEN_GPIO_CTL_LED_MODE_MASK);
if (blink)
gpio_val |= BIT(I40E_GLGEN_GPIO_CTL_LED_BLINK_SHIFT);
else
gpio_val &= ~BIT(I40E_GLGEN_GPIO_CTL_LED_BLINK_SHIFT);
wr32(hw, I40E_GLGEN_GPIO_CTL(i), gpio_val);
break;
}
}
/* Admin command wrappers */
/**
* i40e_aq_get_phy_capabilities
* @hw: pointer to the hw struct
* @abilities: structure for PHY capabilities to be filled
* @qualified_modules: report Qualified Modules
* @report_init: report init capabilities (active are default)
* @cmd_details: pointer to command details structure or NULL
*
* Returns the various PHY abilities supported on the Port.
**/
enum i40e_status_code i40e_aq_get_phy_capabilities(struct i40e_hw *hw,
bool qualified_modules, bool report_init,
struct i40e_aq_get_phy_abilities_resp *abilities,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
enum i40e_status_code status;
u16 max_delay = I40E_MAX_PHY_TIMEOUT, total_delay = 0;
u16 abilities_size = sizeof(struct i40e_aq_get_phy_abilities_resp);
if (!abilities)
return I40E_ERR_PARAM;
do {
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_get_phy_abilities);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
if (abilities_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
if (qualified_modules)
desc.params.external.param0 |=
CPU_TO_LE32(I40E_AQ_PHY_REPORT_QUALIFIED_MODULES);
if (report_init)
desc.params.external.param0 |=
CPU_TO_LE32(I40E_AQ_PHY_REPORT_INITIAL_VALUES);
status = i40e_asq_send_command(hw, &desc, abilities,
abilities_size, cmd_details);
if (status != I40E_SUCCESS)
break;
if (hw->aq.asq_last_status == I40E_AQ_RC_EIO) {
status = I40E_ERR_UNKNOWN_PHY;
break;
} else if (hw->aq.asq_last_status == I40E_AQ_RC_EAGAIN) {
i40e_msec_delay(1);
total_delay++;
status = I40E_ERR_TIMEOUT;
}
} while ((hw->aq.asq_last_status != I40E_AQ_RC_OK) &&
(total_delay < max_delay));
if (status != I40E_SUCCESS)
return status;
if (report_init) {
if (hw->mac.type == I40E_MAC_XL710 &&
hw->aq.api_maj_ver == I40E_FW_API_VERSION_MAJOR &&
hw->aq.api_min_ver >= I40E_MINOR_VER_GET_LINK_INFO_XL710) {
status = i40e_aq_get_link_info(hw, true, NULL, NULL);
} else {
hw->phy.phy_types = LE32_TO_CPU(abilities->phy_type);
hw->phy.phy_types |=
((u64)abilities->phy_type_ext << 32);
}
}
return status;
}
/**
* i40e_aq_set_phy_config
* @hw: pointer to the hw struct
* @config: structure with PHY configuration to be set
* @cmd_details: pointer to command details structure or NULL
*
* Set the various PHY configuration parameters
* supported on the Port.One or more of the Set PHY config parameters may be
* ignored in an MFP mode as the PF may not have the privilege to set some
* of the PHY Config parameters. This status will be indicated by the
* command response.
**/
enum i40e_status_code i40e_aq_set_phy_config(struct i40e_hw *hw,
struct i40e_aq_set_phy_config *config,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aq_set_phy_config *cmd =
(struct i40e_aq_set_phy_config *)&desc.params.raw;
enum i40e_status_code status;
if (!config)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_phy_config);
*cmd = *config;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_set_fc
* @hw: pointer to the hw struct
* @aq_failures: buffer to return AdminQ failure information
* @atomic_restart: whether to enable atomic link restart
*
* Set the requested flow control mode using set_phy_config.
**/
enum i40e_status_code i40e_set_fc(struct i40e_hw *hw, u8 *aq_failures,
bool atomic_restart)
{
enum i40e_fc_mode fc_mode = hw->fc.requested_mode;
struct i40e_aq_get_phy_abilities_resp abilities;
struct i40e_aq_set_phy_config config;
enum i40e_status_code status;
u8 pause_mask = 0x0;
*aq_failures = 0x0;
switch (fc_mode) {
case I40E_FC_FULL:
pause_mask |= I40E_AQ_PHY_FLAG_PAUSE_TX;
pause_mask |= I40E_AQ_PHY_FLAG_PAUSE_RX;
break;
case I40E_FC_RX_PAUSE:
pause_mask |= I40E_AQ_PHY_FLAG_PAUSE_RX;
break;
case I40E_FC_TX_PAUSE:
pause_mask |= I40E_AQ_PHY_FLAG_PAUSE_TX;
break;
default:
break;
}
/* Get the current phy config */
status = i40e_aq_get_phy_capabilities(hw, false, false, &abilities,
NULL);
if (status) {
*aq_failures |= I40E_SET_FC_AQ_FAIL_GET;
return status;
}
memset(&config, 0, sizeof(config));
/* clear the old pause settings */
config.abilities = abilities.abilities & ~(I40E_AQ_PHY_FLAG_PAUSE_TX) &
~(I40E_AQ_PHY_FLAG_PAUSE_RX);
/* set the new abilities */
config.abilities |= pause_mask;
/* If the abilities have changed, then set the new config */
if (config.abilities != abilities.abilities) {
/* Auto restart link so settings take effect */
if (atomic_restart)
config.abilities |= I40E_AQ_PHY_ENABLE_ATOMIC_LINK;
/* Copy over all the old settings */
config.phy_type = abilities.phy_type;
config.phy_type_ext = abilities.phy_type_ext;
config.link_speed = abilities.link_speed;
config.eee_capability = abilities.eee_capability;
config.eeer = abilities.eeer_val;
config.low_power_ctrl = abilities.d3_lpan;
config.fec_config = abilities.fec_cfg_curr_mod_ext_info &
I40E_AQ_PHY_FEC_CONFIG_MASK;
status = i40e_aq_set_phy_config(hw, &config, NULL);
if (status)
*aq_failures |= I40E_SET_FC_AQ_FAIL_SET;
}
/* Update the link info */
status = i40e_update_link_info(hw);
if (status) {
/* Wait a little bit (on 40G cards it sometimes takes a really
* long time for link to come back from the atomic reset)
* and try once more
*/
i40e_msec_delay(1000);
status = i40e_update_link_info(hw);
}
if (status)
*aq_failures |= I40E_SET_FC_AQ_FAIL_UPDATE;
return status;
}
/**
* i40e_aq_set_mac_config
* @hw: pointer to the hw struct
* @max_frame_size: Maximum Frame Size to be supported by the port
* @crc_en: Tell HW to append a CRC to outgoing frames
* @pacing: Pacing configurations
* @cmd_details: pointer to command details structure or NULL
*
* Configure MAC settings for frame size, jumbo frame support and the
* addition of a CRC by the hardware.
**/
enum i40e_status_code i40e_aq_set_mac_config(struct i40e_hw *hw,
u16 max_frame_size,
bool crc_en, u16 pacing,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aq_set_mac_config *cmd =
(struct i40e_aq_set_mac_config *)&desc.params.raw;
enum i40e_status_code status;
if (max_frame_size == 0)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_mac_config);
cmd->max_frame_size = CPU_TO_LE16(max_frame_size);
cmd->params = ((u8)pacing & 0x0F) << 3;
if (crc_en)
cmd->params |= I40E_AQ_SET_MAC_CONFIG_CRC_EN;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_clear_pxe_mode
* @hw: pointer to the hw struct
* @cmd_details: pointer to command details structure or NULL
*
* Tell the firmware that the driver is taking over from PXE
**/
enum i40e_status_code i40e_aq_clear_pxe_mode(struct i40e_hw *hw,
struct i40e_asq_cmd_details *cmd_details)
{
enum i40e_status_code status;
struct i40e_aq_desc desc;
struct i40e_aqc_clear_pxe *cmd =
(struct i40e_aqc_clear_pxe *)&desc.params.raw;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_clear_pxe_mode);
cmd->rx_cnt = 0x2;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
wr32(hw, I40E_GLLAN_RCTL_0, 0x1);
return status;
}
/**
* i40e_aq_set_link_restart_an
* @hw: pointer to the hw struct
* @enable_link: if true: enable link, if false: disable link
* @cmd_details: pointer to command details structure or NULL
*
* Sets up the link and restarts the Auto-Negotiation over the link.
**/
enum i40e_status_code i40e_aq_set_link_restart_an(struct i40e_hw *hw,
bool enable_link, struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_link_restart_an *cmd =
(struct i40e_aqc_set_link_restart_an *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_link_restart_an);
cmd->command = I40E_AQ_PHY_RESTART_AN;
if (enable_link)
cmd->command |= I40E_AQ_PHY_LINK_ENABLE;
else
cmd->command &= ~I40E_AQ_PHY_LINK_ENABLE;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_get_link_info
* @hw: pointer to the hw struct
* @enable_lse: enable/disable LinkStatusEvent reporting
* @link: pointer to link status structure - optional
* @cmd_details: pointer to command details structure or NULL
*
* Returns the link status of the adapter.
**/
enum i40e_status_code i40e_aq_get_link_info(struct i40e_hw *hw,
bool enable_lse, struct i40e_link_status *link,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_get_link_status *resp =
(struct i40e_aqc_get_link_status *)&desc.params.raw;
struct i40e_link_status *hw_link_info = &hw->phy.link_info;
enum i40e_status_code status;
bool tx_pause, rx_pause;
u16 command_flags;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_get_link_status);
if (enable_lse)
command_flags = I40E_AQ_LSE_ENABLE;
else
command_flags = I40E_AQ_LSE_DISABLE;
resp->command_flags = CPU_TO_LE16(command_flags);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (status != I40E_SUCCESS)
goto aq_get_link_info_exit;
/* save off old link status information */
i40e_memcpy(&hw->phy.link_info_old, hw_link_info,
sizeof(*hw_link_info), I40E_NONDMA_TO_NONDMA);
/* update link status */
hw_link_info->phy_type = (enum i40e_aq_phy_type)resp->phy_type;
hw->phy.media_type = i40e_get_media_type(hw);
hw_link_info->link_speed = (enum i40e_aq_link_speed)resp->link_speed;
hw_link_info->link_info = resp->link_info;
hw_link_info->an_info = resp->an_info;
hw_link_info->fec_info = resp->config & (I40E_AQ_CONFIG_FEC_KR_ENA |
I40E_AQ_CONFIG_FEC_RS_ENA);
hw_link_info->ext_info = resp->ext_info;
hw_link_info->loopback = resp->loopback & I40E_AQ_LOOPBACK_MASK;
hw_link_info->max_frame_size = LE16_TO_CPU(resp->max_frame_size);
hw_link_info->pacing = resp->config & I40E_AQ_CONFIG_PACING_MASK;
/* update fc info */
tx_pause = !!(resp->an_info & I40E_AQ_LINK_PAUSE_TX);
rx_pause = !!(resp->an_info & I40E_AQ_LINK_PAUSE_RX);
if (tx_pause & rx_pause)
hw->fc.current_mode = I40E_FC_FULL;
else if (tx_pause)
hw->fc.current_mode = I40E_FC_TX_PAUSE;
else if (rx_pause)
hw->fc.current_mode = I40E_FC_RX_PAUSE;
else
hw->fc.current_mode = I40E_FC_NONE;
if (resp->config & I40E_AQ_CONFIG_CRC_ENA)
hw_link_info->crc_enable = true;
else
hw_link_info->crc_enable = false;
if (resp->command_flags & CPU_TO_LE16(I40E_AQ_LSE_IS_ENABLED))
hw_link_info->lse_enable = true;
else
hw_link_info->lse_enable = false;
if ((hw->mac.type == I40E_MAC_XL710) &&
(hw->aq.fw_maj_ver < 4 || (hw->aq.fw_maj_ver == 4 &&
hw->aq.fw_min_ver < 40)) && hw_link_info->phy_type == 0xE)
hw_link_info->phy_type = I40E_PHY_TYPE_10GBASE_SFPP_CU;
if (hw->aq.api_maj_ver == I40E_FW_API_VERSION_MAJOR &&
hw->aq.api_min_ver >= 7) {
__le32 tmp;
i40e_memcpy(&tmp, resp->link_type, sizeof(tmp),
I40E_NONDMA_TO_NONDMA);
hw->phy.phy_types = LE32_TO_CPU(tmp);
hw->phy.phy_types |= ((u64)resp->link_type_ext << 32);
}
/* save link status information */
if (link)
i40e_memcpy(link, hw_link_info, sizeof(*hw_link_info),
I40E_NONDMA_TO_NONDMA);
/* flag cleared so helper functions don't call AQ again */
hw->phy.get_link_info = false;
aq_get_link_info_exit:
return status;
}
/**
* i40e_aq_set_phy_int_mask
* @hw: pointer to the hw struct
* @mask: interrupt mask to be set
* @cmd_details: pointer to command details structure or NULL
*
* Set link interrupt mask.
**/
enum i40e_status_code i40e_aq_set_phy_int_mask(struct i40e_hw *hw,
u16 mask,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_phy_int_mask *cmd =
(struct i40e_aqc_set_phy_int_mask *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_phy_int_mask);
cmd->event_mask = CPU_TO_LE16(mask);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_get_local_advt_reg
* @hw: pointer to the hw struct
* @advt_reg: local AN advertisement register value
* @cmd_details: pointer to command details structure or NULL
*
* Get the Local AN advertisement register value.
**/
enum i40e_status_code i40e_aq_get_local_advt_reg(struct i40e_hw *hw,
u64 *advt_reg,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_an_advt_reg *resp =
(struct i40e_aqc_an_advt_reg *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_get_local_advt_reg);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (status != I40E_SUCCESS)
goto aq_get_local_advt_reg_exit;
*advt_reg = (u64)(LE16_TO_CPU(resp->local_an_reg1)) << 32;
*advt_reg |= LE32_TO_CPU(resp->local_an_reg0);
aq_get_local_advt_reg_exit:
return status;
}
/**
* i40e_aq_set_local_advt_reg
* @hw: pointer to the hw struct
* @advt_reg: local AN advertisement register value
* @cmd_details: pointer to command details structure or NULL
*
* Get the Local AN advertisement register value.
**/
enum i40e_status_code i40e_aq_set_local_advt_reg(struct i40e_hw *hw,
u64 advt_reg,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_an_advt_reg *cmd =
(struct i40e_aqc_an_advt_reg *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_get_local_advt_reg);
cmd->local_an_reg0 = CPU_TO_LE32(I40E_LO_DWORD(advt_reg));
cmd->local_an_reg1 = CPU_TO_LE16(I40E_HI_DWORD(advt_reg));
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_get_partner_advt
* @hw: pointer to the hw struct
* @advt_reg: AN partner advertisement register value
* @cmd_details: pointer to command details structure or NULL
*
* Get the link partner AN advertisement register value.
**/
enum i40e_status_code i40e_aq_get_partner_advt(struct i40e_hw *hw,
u64 *advt_reg,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_an_advt_reg *resp =
(struct i40e_aqc_an_advt_reg *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_get_partner_advt);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (status != I40E_SUCCESS)
goto aq_get_partner_advt_exit;
*advt_reg = (u64)(LE16_TO_CPU(resp->local_an_reg1)) << 32;
*advt_reg |= LE32_TO_CPU(resp->local_an_reg0);
aq_get_partner_advt_exit:
return status;
}
/**
* i40e_aq_set_lb_modes
* @hw: pointer to the hw struct
* @lb_modes: loopback mode to be set
* @cmd_details: pointer to command details structure or NULL
*
* Sets loopback modes.
**/
enum i40e_status_code i40e_aq_set_lb_modes(struct i40e_hw *hw,
u16 lb_modes,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_lb_mode *cmd =
(struct i40e_aqc_set_lb_mode *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_lb_modes);
cmd->lb_mode = CPU_TO_LE16(lb_modes);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_set_phy_debug
* @hw: pointer to the hw struct
* @cmd_flags: debug command flags
* @cmd_details: pointer to command details structure or NULL
*
* Reset the external PHY.
**/
enum i40e_status_code i40e_aq_set_phy_debug(struct i40e_hw *hw, u8 cmd_flags,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_phy_debug *cmd =
(struct i40e_aqc_set_phy_debug *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_phy_debug);
cmd->command_flags = cmd_flags;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_add_vsi
* @hw: pointer to the hw struct
* @vsi_ctx: pointer to a vsi context struct
* @cmd_details: pointer to command details structure or NULL
*
* Add a VSI context to the hardware.
**/
enum i40e_status_code i40e_aq_add_vsi(struct i40e_hw *hw,
struct i40e_vsi_context *vsi_ctx,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_get_update_vsi *cmd =
(struct i40e_aqc_add_get_update_vsi *)&desc.params.raw;
struct i40e_aqc_add_get_update_vsi_completion *resp =
(struct i40e_aqc_add_get_update_vsi_completion *)
&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_add_vsi);
cmd->uplink_seid = CPU_TO_LE16(vsi_ctx->uplink_seid);
cmd->connection_type = vsi_ctx->connection_type;
cmd->vf_id = vsi_ctx->vf_num;
cmd->vsi_flags = CPU_TO_LE16(vsi_ctx->flags);
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
status = i40e_asq_send_command(hw, &desc, &vsi_ctx->info,
sizeof(vsi_ctx->info), cmd_details);
if (status != I40E_SUCCESS)
goto aq_add_vsi_exit;
vsi_ctx->seid = LE16_TO_CPU(resp->seid);
vsi_ctx->vsi_number = LE16_TO_CPU(resp->vsi_number);
vsi_ctx->vsis_allocated = LE16_TO_CPU(resp->vsi_used);
vsi_ctx->vsis_unallocated = LE16_TO_CPU(resp->vsi_free);
aq_add_vsi_exit:
return status;
}
/**
* i40e_aq_set_default_vsi
* @hw: pointer to the hw struct
* @seid: vsi number
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_set_default_vsi(struct i40e_hw *hw,
u16 seid,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_vsi_promiscuous_modes *cmd =
(struct i40e_aqc_set_vsi_promiscuous_modes *)
&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_vsi_promiscuous_modes);
cmd->promiscuous_flags = CPU_TO_LE16(I40E_AQC_SET_VSI_DEFAULT);
cmd->valid_flags = CPU_TO_LE16(I40E_AQC_SET_VSI_DEFAULT);
cmd->seid = CPU_TO_LE16(seid);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_clear_default_vsi
* @hw: pointer to the hw struct
* @seid: vsi number
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_clear_default_vsi(struct i40e_hw *hw,
u16 seid,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_vsi_promiscuous_modes *cmd =
(struct i40e_aqc_set_vsi_promiscuous_modes *)
&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_vsi_promiscuous_modes);
cmd->promiscuous_flags = CPU_TO_LE16(0);
cmd->valid_flags = CPU_TO_LE16(I40E_AQC_SET_VSI_DEFAULT);
cmd->seid = CPU_TO_LE16(seid);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_set_vsi_unicast_promiscuous
* @hw: pointer to the hw struct
* @seid: vsi number
* @set: set unicast promiscuous enable/disable
* @cmd_details: pointer to command details structure or NULL
* @rx_only_promisc: flag to decide if egress traffic gets mirrored in promisc
**/
enum i40e_status_code i40e_aq_set_vsi_unicast_promiscuous(struct i40e_hw *hw,
u16 seid, bool set,
struct i40e_asq_cmd_details *cmd_details,
bool rx_only_promisc)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_vsi_promiscuous_modes *cmd =
(struct i40e_aqc_set_vsi_promiscuous_modes *)&desc.params.raw;
enum i40e_status_code status;
u16 flags = 0;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_vsi_promiscuous_modes);
if (set) {
flags |= I40E_AQC_SET_VSI_PROMISC_UNICAST;
if (rx_only_promisc &&
(((hw->aq.api_maj_ver == 1) && (hw->aq.api_min_ver >= 5)) ||
(hw->aq.api_maj_ver > 1)))
flags |= I40E_AQC_SET_VSI_PROMISC_TX;
}
cmd->promiscuous_flags = CPU_TO_LE16(flags);
cmd->valid_flags = CPU_TO_LE16(I40E_AQC_SET_VSI_PROMISC_UNICAST);
if (((hw->aq.api_maj_ver >= 1) && (hw->aq.api_min_ver >= 5)) ||
(hw->aq.api_maj_ver > 1))
cmd->valid_flags |= CPU_TO_LE16(I40E_AQC_SET_VSI_PROMISC_TX);
cmd->seid = CPU_TO_LE16(seid);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_set_vsi_multicast_promiscuous
* @hw: pointer to the hw struct
* @seid: vsi number
* @set: set multicast promiscuous enable/disable
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_set_vsi_multicast_promiscuous(struct i40e_hw *hw,
u16 seid, bool set, struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_vsi_promiscuous_modes *cmd =
(struct i40e_aqc_set_vsi_promiscuous_modes *)&desc.params.raw;
enum i40e_status_code status;
u16 flags = 0;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_vsi_promiscuous_modes);
if (set)
flags |= I40E_AQC_SET_VSI_PROMISC_MULTICAST;
cmd->promiscuous_flags = CPU_TO_LE16(flags);
cmd->valid_flags = CPU_TO_LE16(I40E_AQC_SET_VSI_PROMISC_MULTICAST);
cmd->seid = CPU_TO_LE16(seid);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_set_vsi_full_promiscuous
* @hw: pointer to the hw struct
* @seid: VSI number
* @set: set promiscuous enable/disable
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_set_vsi_full_promiscuous(struct i40e_hw *hw,
u16 seid, bool set,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_vsi_promiscuous_modes *cmd =
(struct i40e_aqc_set_vsi_promiscuous_modes *)&desc.params.raw;
enum i40e_status_code status;
u16 flags = 0;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_vsi_promiscuous_modes);
if (set)
flags = I40E_AQC_SET_VSI_PROMISC_UNICAST |
I40E_AQC_SET_VSI_PROMISC_MULTICAST |
I40E_AQC_SET_VSI_PROMISC_BROADCAST;
cmd->promiscuous_flags = CPU_TO_LE16(flags);
cmd->valid_flags = CPU_TO_LE16(I40E_AQC_SET_VSI_PROMISC_UNICAST |
I40E_AQC_SET_VSI_PROMISC_MULTICAST |
I40E_AQC_SET_VSI_PROMISC_BROADCAST);
cmd->seid = CPU_TO_LE16(seid);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_set_vsi_mc_promisc_on_vlan
* @hw: pointer to the hw struct
* @seid: vsi number
* @enable: set MAC L2 layer unicast promiscuous enable/disable for a given VLAN
* @vid: The VLAN tag filter - capture any multicast packet with this VLAN tag
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_set_vsi_mc_promisc_on_vlan(struct i40e_hw *hw,
u16 seid, bool enable, u16 vid,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_vsi_promiscuous_modes *cmd =
(struct i40e_aqc_set_vsi_promiscuous_modes *)&desc.params.raw;
enum i40e_status_code status;
u16 flags = 0;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_vsi_promiscuous_modes);
if (enable)
flags |= I40E_AQC_SET_VSI_PROMISC_MULTICAST;
cmd->promiscuous_flags = CPU_TO_LE16(flags);
cmd->valid_flags = CPU_TO_LE16(I40E_AQC_SET_VSI_PROMISC_MULTICAST);
cmd->seid = CPU_TO_LE16(seid);
cmd->vlan_tag = CPU_TO_LE16(vid | I40E_AQC_SET_VSI_VLAN_VALID);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_set_vsi_uc_promisc_on_vlan
* @hw: pointer to the hw struct
* @seid: vsi number
* @enable: set MAC L2 layer unicast promiscuous enable/disable for a given VLAN
* @vid: The VLAN tag filter - capture any unicast packet with this VLAN tag
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_set_vsi_uc_promisc_on_vlan(struct i40e_hw *hw,
u16 seid, bool enable, u16 vid,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_vsi_promiscuous_modes *cmd =
(struct i40e_aqc_set_vsi_promiscuous_modes *)&desc.params.raw;
enum i40e_status_code status;
u16 flags = 0;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_vsi_promiscuous_modes);
if (enable)
flags |= I40E_AQC_SET_VSI_PROMISC_UNICAST;
cmd->promiscuous_flags = CPU_TO_LE16(flags);
cmd->valid_flags = CPU_TO_LE16(I40E_AQC_SET_VSI_PROMISC_UNICAST);
cmd->seid = CPU_TO_LE16(seid);
cmd->vlan_tag = CPU_TO_LE16(vid | I40E_AQC_SET_VSI_VLAN_VALID);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_set_vsi_bc_promisc_on_vlan
* @hw: pointer to the hw struct
* @seid: vsi number
* @enable: set broadcast promiscuous enable/disable for a given VLAN
* @vid: The VLAN tag filter - capture any broadcast packet with this VLAN tag
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_set_vsi_bc_promisc_on_vlan(struct i40e_hw *hw,
u16 seid, bool enable, u16 vid,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_vsi_promiscuous_modes *cmd =
(struct i40e_aqc_set_vsi_promiscuous_modes *)&desc.params.raw;
enum i40e_status_code status;
u16 flags = 0;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_vsi_promiscuous_modes);
if (enable)
flags |= I40E_AQC_SET_VSI_PROMISC_BROADCAST;
cmd->promiscuous_flags = CPU_TO_LE16(flags);
cmd->valid_flags = CPU_TO_LE16(I40E_AQC_SET_VSI_PROMISC_BROADCAST);
cmd->seid = CPU_TO_LE16(seid);
cmd->vlan_tag = CPU_TO_LE16(vid | I40E_AQC_SET_VSI_VLAN_VALID);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_set_vsi_broadcast
* @hw: pointer to the hw struct
* @seid: vsi number
* @set_filter: true to set filter, false to clear filter
* @cmd_details: pointer to command details structure or NULL
*
* Set or clear the broadcast promiscuous flag (filter) for a given VSI.
**/
enum i40e_status_code i40e_aq_set_vsi_broadcast(struct i40e_hw *hw,
u16 seid, bool set_filter,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_vsi_promiscuous_modes *cmd =
(struct i40e_aqc_set_vsi_promiscuous_modes *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_vsi_promiscuous_modes);
if (set_filter)
cmd->promiscuous_flags
|= CPU_TO_LE16(I40E_AQC_SET_VSI_PROMISC_BROADCAST);
else
cmd->promiscuous_flags
&= CPU_TO_LE16(~I40E_AQC_SET_VSI_PROMISC_BROADCAST);
cmd->valid_flags = CPU_TO_LE16(I40E_AQC_SET_VSI_PROMISC_BROADCAST);
cmd->seid = CPU_TO_LE16(seid);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_set_vsi_vlan_promisc - control the VLAN promiscuous setting
* @hw: pointer to the hw struct
* @seid: vsi number
* @enable: set MAC L2 layer unicast promiscuous enable/disable for a given VLAN
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_set_vsi_vlan_promisc(struct i40e_hw *hw,
u16 seid, bool enable,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_vsi_promiscuous_modes *cmd =
(struct i40e_aqc_set_vsi_promiscuous_modes *)&desc.params.raw;
enum i40e_status_code status;
u16 flags = 0;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_vsi_promiscuous_modes);
if (enable)
flags |= I40E_AQC_SET_VSI_PROMISC_VLAN;
cmd->promiscuous_flags = CPU_TO_LE16(flags);
cmd->valid_flags = CPU_TO_LE16(I40E_AQC_SET_VSI_PROMISC_VLAN);
cmd->seid = CPU_TO_LE16(seid);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_get_vsi_params - get VSI configuration info
* @hw: pointer to the hw struct
* @vsi_ctx: pointer to a vsi context struct
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_get_vsi_params(struct i40e_hw *hw,
struct i40e_vsi_context *vsi_ctx,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_get_update_vsi *cmd =
(struct i40e_aqc_add_get_update_vsi *)&desc.params.raw;
struct i40e_aqc_add_get_update_vsi_completion *resp =
(struct i40e_aqc_add_get_update_vsi_completion *)
&desc.params.raw;
enum i40e_status_code status;
UNREFERENCED_1PARAMETER(cmd_details);
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_get_vsi_parameters);
cmd->uplink_seid = CPU_TO_LE16(vsi_ctx->seid);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
status = i40e_asq_send_command(hw, &desc, &vsi_ctx->info,
sizeof(vsi_ctx->info), NULL);
if (status != I40E_SUCCESS)
goto aq_get_vsi_params_exit;
vsi_ctx->seid = LE16_TO_CPU(resp->seid);
vsi_ctx->vsi_number = LE16_TO_CPU(resp->vsi_number);
vsi_ctx->vsis_allocated = LE16_TO_CPU(resp->vsi_used);
vsi_ctx->vsis_unallocated = LE16_TO_CPU(resp->vsi_free);
aq_get_vsi_params_exit:
return status;
}
/**
* i40e_aq_update_vsi_params
* @hw: pointer to the hw struct
* @vsi_ctx: pointer to a vsi context struct
* @cmd_details: pointer to command details structure or NULL
*
* Update a VSI context.
**/
enum i40e_status_code i40e_aq_update_vsi_params(struct i40e_hw *hw,
struct i40e_vsi_context *vsi_ctx,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_get_update_vsi *cmd =
(struct i40e_aqc_add_get_update_vsi *)&desc.params.raw;
struct i40e_aqc_add_get_update_vsi_completion *resp =
(struct i40e_aqc_add_get_update_vsi_completion *)
&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_update_vsi_parameters);
cmd->uplink_seid = CPU_TO_LE16(vsi_ctx->seid);
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
status = i40e_asq_send_command(hw, &desc, &vsi_ctx->info,
sizeof(vsi_ctx->info), cmd_details);
vsi_ctx->vsis_allocated = LE16_TO_CPU(resp->vsi_used);
vsi_ctx->vsis_unallocated = LE16_TO_CPU(resp->vsi_free);
return status;
}
/**
* i40e_aq_get_switch_config
* @hw: pointer to the hardware structure
* @buf: pointer to the result buffer
* @buf_size: length of input buffer
* @start_seid: seid to start for the report, 0 == beginning
* @cmd_details: pointer to command details structure or NULL
*
* Fill the buf with switch configuration returned from AdminQ command
**/
enum i40e_status_code i40e_aq_get_switch_config(struct i40e_hw *hw,
struct i40e_aqc_get_switch_config_resp *buf,
u16 buf_size, u16 *start_seid,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_switch_seid *scfg =
(struct i40e_aqc_switch_seid *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_get_switch_config);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
if (buf_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
scfg->seid = CPU_TO_LE16(*start_seid);
status = i40e_asq_send_command(hw, &desc, buf, buf_size, cmd_details);
*start_seid = LE16_TO_CPU(scfg->seid);
return status;
}
/**
* i40e_aq_set_switch_config
* @hw: pointer to the hardware structure
* @flags: bit flag values to set
* @valid_flags: which bit flags to set
* @cmd_details: pointer to command details structure or NULL
*
* Set switch configuration bits
**/
enum i40e_status_code i40e_aq_set_switch_config(struct i40e_hw *hw,
u16 flags, u16 valid_flags,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_switch_config *scfg =
(struct i40e_aqc_set_switch_config *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_switch_config);
scfg->flags = CPU_TO_LE16(flags);
scfg->valid_flags = CPU_TO_LE16(valid_flags);
if (hw->flags & I40E_HW_FLAG_802_1AD_CAPABLE) {
scfg->switch_tag = CPU_TO_LE16(hw->switch_tag);
scfg->first_tag = CPU_TO_LE16(hw->first_tag);
scfg->second_tag = CPU_TO_LE16(hw->second_tag);
}
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_get_firmware_version
* @hw: pointer to the hw struct
* @fw_major_version: firmware major version
* @fw_minor_version: firmware minor version
* @fw_build: firmware build number
* @api_major_version: major queue version
* @api_minor_version: minor queue version
* @cmd_details: pointer to command details structure or NULL
*
* Get the firmware version from the admin queue commands
**/
enum i40e_status_code i40e_aq_get_firmware_version(struct i40e_hw *hw,
u16 *fw_major_version, u16 *fw_minor_version,
u32 *fw_build,
u16 *api_major_version, u16 *api_minor_version,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_get_version *resp =
(struct i40e_aqc_get_version *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_get_version);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (status == I40E_SUCCESS) {
if (fw_major_version != NULL)
*fw_major_version = LE16_TO_CPU(resp->fw_major);
if (fw_minor_version != NULL)
*fw_minor_version = LE16_TO_CPU(resp->fw_minor);
if (fw_build != NULL)
*fw_build = LE32_TO_CPU(resp->fw_build);
if (api_major_version != NULL)
*api_major_version = LE16_TO_CPU(resp->api_major);
if (api_minor_version != NULL)
*api_minor_version = LE16_TO_CPU(resp->api_minor);
/* A workaround to fix the API version in SW */
if (api_major_version && api_minor_version &&
fw_major_version && fw_minor_version &&
((*api_major_version == 1) && (*api_minor_version == 1)) &&
(((*fw_major_version == 4) && (*fw_minor_version >= 2)) ||
(*fw_major_version > 4)))
*api_minor_version = 2;
}
return status;
}
/**
* i40e_aq_send_driver_version
* @hw: pointer to the hw struct
* @dv: driver's major, minor version
* @cmd_details: pointer to command details structure or NULL
*
* Send the driver version to the firmware
**/
enum i40e_status_code i40e_aq_send_driver_version(struct i40e_hw *hw,
struct i40e_driver_version *dv,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_driver_version *cmd =
(struct i40e_aqc_driver_version *)&desc.params.raw;
enum i40e_status_code status;
u16 len;
if (dv == NULL)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_driver_version);
desc.flags |= CPU_TO_LE16(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD);
cmd->driver_major_ver = dv->major_version;
cmd->driver_minor_ver = dv->minor_version;
cmd->driver_build_ver = dv->build_version;
cmd->driver_subbuild_ver = dv->subbuild_version;
len = 0;
while (len < sizeof(dv->driver_string) &&
(dv->driver_string[len] < 0x80) &&
dv->driver_string[len])
len++;
status = i40e_asq_send_command(hw, &desc, dv->driver_string,
len, cmd_details);
return status;
}
/**
* i40e_get_link_status - get status of the HW network link
* @hw: pointer to the hw struct
* @link_up: pointer to bool (true/false = linkup/linkdown)
*
* Variable link_up true if link is up, false if link is down.
* The variable link_up is invalid if returned value of status != I40E_SUCCESS
*
* Side effect: LinkStatusEvent reporting becomes enabled
**/
enum i40e_status_code i40e_get_link_status(struct i40e_hw *hw, bool *link_up)
{
enum i40e_status_code status = I40E_SUCCESS;
if (hw->phy.get_link_info) {
status = i40e_update_link_info(hw);
if (status != I40E_SUCCESS)
i40e_debug(hw, I40E_DEBUG_LINK, "get link failed: status %d\n",
status);
}
*link_up = hw->phy.link_info.link_info & I40E_AQ_LINK_UP;
return status;
}
/**
* i40e_updatelink_status - update status of the HW network link
* @hw: pointer to the hw struct
**/
enum i40e_status_code i40e_update_link_info(struct i40e_hw *hw)
{
struct i40e_aq_get_phy_abilities_resp abilities;
enum i40e_status_code status = I40E_SUCCESS;
status = i40e_aq_get_link_info(hw, true, NULL, NULL);
if (status)
return status;
/* extra checking needed to ensure link info to user is timely */
if ((hw->phy.link_info.link_info & I40E_AQ_MEDIA_AVAILABLE) &&
((hw->phy.link_info.link_info & I40E_AQ_LINK_UP) ||
!(hw->phy.link_info_old.link_info & I40E_AQ_LINK_UP))) {
status = i40e_aq_get_phy_capabilities(hw, false, false,
&abilities, NULL);
if (status)
return status;
hw->phy.link_info.req_fec_info =
abilities.fec_cfg_curr_mod_ext_info &
(I40E_AQ_REQUEST_FEC_KR | I40E_AQ_REQUEST_FEC_RS);
i40e_memcpy(hw->phy.link_info.module_type, &abilities.module_type,
sizeof(hw->phy.link_info.module_type), I40E_NONDMA_TO_NONDMA);
}
return status;
}
/**
* i40e_get_link_speed
* @hw: pointer to the hw struct
*
* Returns the link speed of the adapter.
**/
enum i40e_aq_link_speed i40e_get_link_speed(struct i40e_hw *hw)
{
enum i40e_aq_link_speed speed = I40E_LINK_SPEED_UNKNOWN;
enum i40e_status_code status = I40E_SUCCESS;
if (hw->phy.get_link_info) {
status = i40e_aq_get_link_info(hw, true, NULL, NULL);
if (status != I40E_SUCCESS)
goto i40e_link_speed_exit;
}
speed = hw->phy.link_info.link_speed;
i40e_link_speed_exit:
return speed;
}
/**
* i40e_aq_add_veb - Insert a VEB between the VSI and the MAC
* @hw: pointer to the hw struct
* @uplink_seid: the MAC or other gizmo SEID
* @downlink_seid: the VSI SEID
* @enabled_tc: bitmap of TCs to be enabled
* @default_port: true for default port VSI, false for control port
* @veb_seid: pointer to where to put the resulting VEB SEID
* @enable_stats: true to turn on VEB stats
* @cmd_details: pointer to command details structure or NULL
*
* This asks the FW to add a VEB between the uplink and downlink
* elements. If the uplink SEID is 0, this will be a floating VEB.
**/
enum i40e_status_code i40e_aq_add_veb(struct i40e_hw *hw, u16 uplink_seid,
u16 downlink_seid, u8 enabled_tc,
bool default_port, u16 *veb_seid,
bool enable_stats,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_veb *cmd =
(struct i40e_aqc_add_veb *)&desc.params.raw;
struct i40e_aqc_add_veb_completion *resp =
(struct i40e_aqc_add_veb_completion *)&desc.params.raw;
enum i40e_status_code status;
u16 veb_flags = 0;
/* SEIDs need to either both be set or both be 0 for floating VEB */
if (!!uplink_seid != !!downlink_seid)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_add_veb);
cmd->uplink_seid = CPU_TO_LE16(uplink_seid);
cmd->downlink_seid = CPU_TO_LE16(downlink_seid);
cmd->enable_tcs = enabled_tc;
if (!uplink_seid)
veb_flags |= I40E_AQC_ADD_VEB_FLOATING;
if (default_port)
veb_flags |= I40E_AQC_ADD_VEB_PORT_TYPE_DEFAULT;
else
veb_flags |= I40E_AQC_ADD_VEB_PORT_TYPE_DATA;
/* reverse logic here: set the bitflag to disable the stats */
if (!enable_stats)
veb_flags |= I40E_AQC_ADD_VEB_ENABLE_DISABLE_STATS;
cmd->veb_flags = CPU_TO_LE16(veb_flags);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (!status && veb_seid)
*veb_seid = LE16_TO_CPU(resp->veb_seid);
return status;
}
/**
* i40e_aq_get_veb_parameters - Retrieve VEB parameters
* @hw: pointer to the hw struct
* @veb_seid: the SEID of the VEB to query
* @switch_id: the uplink switch id
* @floating: set to true if the VEB is floating
* @statistic_index: index of the stats counter block for this VEB
* @vebs_used: number of VEB's used by function
* @vebs_free: total VEB's not reserved by any function
* @cmd_details: pointer to command details structure or NULL
*
* This retrieves the parameters for a particular VEB, specified by
* uplink_seid, and returns them to the caller.
**/
enum i40e_status_code i40e_aq_get_veb_parameters(struct i40e_hw *hw,
u16 veb_seid, u16 *switch_id,
bool *floating, u16 *statistic_index,
u16 *vebs_used, u16 *vebs_free,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_get_veb_parameters_completion *cmd_resp =
(struct i40e_aqc_get_veb_parameters_completion *)
&desc.params.raw;
enum i40e_status_code status;
if (veb_seid == 0)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_get_veb_parameters);
cmd_resp->seid = CPU_TO_LE16(veb_seid);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (status)
goto get_veb_exit;
if (switch_id)
*switch_id = LE16_TO_CPU(cmd_resp->switch_id);
if (statistic_index)
*statistic_index = LE16_TO_CPU(cmd_resp->statistic_index);
if (vebs_used)
*vebs_used = LE16_TO_CPU(cmd_resp->vebs_used);
if (vebs_free)
*vebs_free = LE16_TO_CPU(cmd_resp->vebs_free);
if (floating) {
u16 flags = LE16_TO_CPU(cmd_resp->veb_flags);
if (flags & I40E_AQC_ADD_VEB_FLOATING)
*floating = true;
else
*floating = false;
}
get_veb_exit:
return status;
}
/**
* i40e_aq_add_macvlan
* @hw: pointer to the hw struct
* @seid: VSI for the mac address
* @mv_list: list of macvlans to be added
* @count: length of the list
* @cmd_details: pointer to command details structure or NULL
*
* Add MAC/VLAN addresses to the HW filtering
**/
enum i40e_status_code i40e_aq_add_macvlan(struct i40e_hw *hw, u16 seid,
struct i40e_aqc_add_macvlan_element_data *mv_list,
u16 count, struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_macvlan *cmd =
(struct i40e_aqc_macvlan *)&desc.params.raw;
enum i40e_status_code status;
u16 buf_size;
int i;
if (count == 0 || !mv_list || !hw)
return I40E_ERR_PARAM;
buf_size = count * sizeof(*mv_list);
/* prep the rest of the request */
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_add_macvlan);
cmd->num_addresses = CPU_TO_LE16(count);
cmd->seid[0] = CPU_TO_LE16(I40E_AQC_MACVLAN_CMD_SEID_VALID | seid);
cmd->seid[1] = 0;
cmd->seid[2] = 0;
for (i = 0; i < count; i++)
if (I40E_IS_MULTICAST(mv_list[i].mac_addr))
mv_list[i].flags |=
CPU_TO_LE16(I40E_AQC_MACVLAN_ADD_USE_SHARED_MAC);
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
if (buf_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
status = i40e_asq_send_command(hw, &desc, mv_list, buf_size,
cmd_details);
return status;
}
/**
* i40e_aq_remove_macvlan
* @hw: pointer to the hw struct
* @seid: VSI for the mac address
* @mv_list: list of macvlans to be removed
* @count: length of the list
* @cmd_details: pointer to command details structure or NULL
*
* Remove MAC/VLAN addresses from the HW filtering
**/
enum i40e_status_code i40e_aq_remove_macvlan(struct i40e_hw *hw, u16 seid,
struct i40e_aqc_remove_macvlan_element_data *mv_list,
u16 count, struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_macvlan *cmd =
(struct i40e_aqc_macvlan *)&desc.params.raw;
enum i40e_status_code status;
u16 buf_size;
if (count == 0 || !mv_list || !hw)
return I40E_ERR_PARAM;
buf_size = count * sizeof(*mv_list);
/* prep the rest of the request */
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_remove_macvlan);
cmd->num_addresses = CPU_TO_LE16(count);
cmd->seid[0] = CPU_TO_LE16(I40E_AQC_MACVLAN_CMD_SEID_VALID | seid);
cmd->seid[1] = 0;
cmd->seid[2] = 0;
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
if (buf_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
status = i40e_asq_send_command(hw, &desc, mv_list, buf_size,
cmd_details);
return status;
}
/**
* i40e_mirrorrule_op - Internal helper function to add/delete mirror rule
* @hw: pointer to the hw struct
* @opcode: AQ opcode for add or delete mirror rule
* @sw_seid: Switch SEID (to which rule refers)
* @rule_type: Rule Type (ingress/egress/VLAN)
* @id: Destination VSI SEID or Rule ID
* @count: length of the list
* @mr_list: list of mirrored VSI SEIDs or VLAN IDs
* @cmd_details: pointer to command details structure or NULL
* @rule_id: Rule ID returned from FW
* @rules_used: Number of rules used in internal switch
* @rules_free: Number of rules free in internal switch
*
* Add/Delete a mirror rule to a specific switch. Mirror rules are supported for
* VEBs/VEPA elements only
**/
static enum i40e_status_code i40e_mirrorrule_op(struct i40e_hw *hw,
u16 opcode, u16 sw_seid, u16 rule_type, u16 id,
u16 count, __le16 *mr_list,
struct i40e_asq_cmd_details *cmd_details,
u16 *rule_id, u16 *rules_used, u16 *rules_free)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_delete_mirror_rule *cmd =
(struct i40e_aqc_add_delete_mirror_rule *)&desc.params.raw;
struct i40e_aqc_add_delete_mirror_rule_completion *resp =
(struct i40e_aqc_add_delete_mirror_rule_completion *)&desc.params.raw;
enum i40e_status_code status;
u16 buf_size;
buf_size = count * sizeof(*mr_list);
/* prep the rest of the request */
i40e_fill_default_direct_cmd_desc(&desc, opcode);
cmd->seid = CPU_TO_LE16(sw_seid);
cmd->rule_type = CPU_TO_LE16(rule_type &
I40E_AQC_MIRROR_RULE_TYPE_MASK);
cmd->num_entries = CPU_TO_LE16(count);
/* Dest VSI for add, rule_id for delete */
cmd->destination = CPU_TO_LE16(id);
if (mr_list) {
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF |
I40E_AQ_FLAG_RD));
if (buf_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
}
status = i40e_asq_send_command(hw, &desc, mr_list, buf_size,
cmd_details);
if (status == I40E_SUCCESS ||
hw->aq.asq_last_status == I40E_AQ_RC_ENOSPC) {
if (rule_id)
*rule_id = LE16_TO_CPU(resp->rule_id);
if (rules_used)
*rules_used = LE16_TO_CPU(resp->mirror_rules_used);
if (rules_free)
*rules_free = LE16_TO_CPU(resp->mirror_rules_free);
}
return status;
}
/**
* i40e_aq_add_mirrorrule - add a mirror rule
* @hw: pointer to the hw struct
* @sw_seid: Switch SEID (to which rule refers)
* @rule_type: Rule Type (ingress/egress/VLAN)
* @dest_vsi: SEID of VSI to which packets will be mirrored
* @count: length of the list
* @mr_list: list of mirrored VSI SEIDs or VLAN IDs
* @cmd_details: pointer to command details structure or NULL
* @rule_id: Rule ID returned from FW
* @rules_used: Number of rules used in internal switch
* @rules_free: Number of rules free in internal switch
*
* Add mirror rule. Mirror rules are supported for VEBs or VEPA elements only
**/
enum i40e_status_code i40e_aq_add_mirrorrule(struct i40e_hw *hw, u16 sw_seid,
u16 rule_type, u16 dest_vsi, u16 count, __le16 *mr_list,
struct i40e_asq_cmd_details *cmd_details,
u16 *rule_id, u16 *rules_used, u16 *rules_free)
{
if (!(rule_type == I40E_AQC_MIRROR_RULE_TYPE_ALL_INGRESS ||
rule_type == I40E_AQC_MIRROR_RULE_TYPE_ALL_EGRESS)) {
if (count == 0 || !mr_list)
return I40E_ERR_PARAM;
}
return i40e_mirrorrule_op(hw, i40e_aqc_opc_add_mirror_rule, sw_seid,
rule_type, dest_vsi, count, mr_list,
cmd_details, rule_id, rules_used, rules_free);
}
/**
* i40e_aq_delete_mirrorrule - delete a mirror rule
* @hw: pointer to the hw struct
* @sw_seid: Switch SEID (to which rule refers)
* @rule_type: Rule Type (ingress/egress/VLAN)
* @count: length of the list
* @rule_id: Rule ID that is returned in the receive desc as part of
* add_mirrorrule.
* @mr_list: list of mirrored VLAN IDs to be removed
* @cmd_details: pointer to command details structure or NULL
* @rules_used: Number of rules used in internal switch
* @rules_free: Number of rules free in internal switch
*
* Delete a mirror rule. Mirror rules are supported for VEBs/VEPA elements only
**/
enum i40e_status_code i40e_aq_delete_mirrorrule(struct i40e_hw *hw, u16 sw_seid,
u16 rule_type, u16 rule_id, u16 count, __le16 *mr_list,
struct i40e_asq_cmd_details *cmd_details,
u16 *rules_used, u16 *rules_free)
{
/* Rule ID has to be valid except rule_type: INGRESS VLAN mirroring */
if (rule_type == I40E_AQC_MIRROR_RULE_TYPE_VLAN) {
/* count and mr_list shall be valid for rule_type INGRESS VLAN
* mirroring. For other rule_type, count and rule_type should
* not matter.
*/
if (count == 0 || !mr_list)
return I40E_ERR_PARAM;
}
return i40e_mirrorrule_op(hw, i40e_aqc_opc_delete_mirror_rule, sw_seid,
rule_type, rule_id, count, mr_list,
cmd_details, NULL, rules_used, rules_free);
}
/**
* i40e_aq_add_vlan - Add VLAN ids to the HW filtering
* @hw: pointer to the hw struct
* @seid: VSI for the vlan filters
* @v_list: list of vlan filters to be added
* @count: length of the list
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_add_vlan(struct i40e_hw *hw, u16 seid,
struct i40e_aqc_add_remove_vlan_element_data *v_list,
u8 count, struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_macvlan *cmd =
(struct i40e_aqc_macvlan *)&desc.params.raw;
enum i40e_status_code status;
u16 buf_size;
if (count == 0 || !v_list || !hw)
return I40E_ERR_PARAM;
buf_size = count * sizeof(*v_list);
/* prep the rest of the request */
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_add_vlan);
cmd->num_addresses = CPU_TO_LE16(count);
cmd->seid[0] = CPU_TO_LE16(seid | I40E_AQC_MACVLAN_CMD_SEID_VALID);
cmd->seid[1] = 0;
cmd->seid[2] = 0;
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
if (buf_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
status = i40e_asq_send_command(hw, &desc, v_list, buf_size,
cmd_details);
return status;
}
/**
* i40e_aq_remove_vlan - Remove VLANs from the HW filtering
* @hw: pointer to the hw struct
* @seid: VSI for the vlan filters
* @v_list: list of macvlans to be removed
* @count: length of the list
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_remove_vlan(struct i40e_hw *hw, u16 seid,
struct i40e_aqc_add_remove_vlan_element_data *v_list,
u8 count, struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_macvlan *cmd =
(struct i40e_aqc_macvlan *)&desc.params.raw;
enum i40e_status_code status;
u16 buf_size;
if (count == 0 || !v_list || !hw)
return I40E_ERR_PARAM;
buf_size = count * sizeof(*v_list);
/* prep the rest of the request */
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_remove_vlan);
cmd->num_addresses = CPU_TO_LE16(count);
cmd->seid[0] = CPU_TO_LE16(seid | I40E_AQC_MACVLAN_CMD_SEID_VALID);
cmd->seid[1] = 0;
cmd->seid[2] = 0;
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
if (buf_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
status = i40e_asq_send_command(hw, &desc, v_list, buf_size,
cmd_details);
return status;
}
/**
* i40e_aq_send_msg_to_vf
* @hw: pointer to the hardware structure
* @vfid: vf id to send msg
* @v_opcode: opcodes for VF-PF communication
* @v_retval: return error code
* @msg: pointer to the msg buffer
* @msglen: msg length
* @cmd_details: pointer to command details
*
* send msg to vf
**/
enum i40e_status_code i40e_aq_send_msg_to_vf(struct i40e_hw *hw, u16 vfid,
u32 v_opcode, u32 v_retval, u8 *msg, u16 msglen,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_pf_vf_message *cmd =
(struct i40e_aqc_pf_vf_message *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_send_msg_to_vf);
cmd->id = CPU_TO_LE32(vfid);
desc.cookie_high = CPU_TO_LE32(v_opcode);
desc.cookie_low = CPU_TO_LE32(v_retval);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_SI);
if (msglen) {
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF |
I40E_AQ_FLAG_RD));
if (msglen > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
desc.datalen = CPU_TO_LE16(msglen);
}
status = i40e_asq_send_command(hw, &desc, msg, msglen, cmd_details);
return status;
}
/**
* i40e_aq_debug_read_register
* @hw: pointer to the hw struct
* @reg_addr: register address
* @reg_val: register value
* @cmd_details: pointer to command details structure or NULL
*
* Read the register using the admin queue commands
**/
enum i40e_status_code i40e_aq_debug_read_register(struct i40e_hw *hw,
u32 reg_addr, u64 *reg_val,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_debug_reg_read_write *cmd_resp =
(struct i40e_aqc_debug_reg_read_write *)&desc.params.raw;
enum i40e_status_code status;
if (reg_val == NULL)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_debug_read_reg);
cmd_resp->address = CPU_TO_LE32(reg_addr);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (status == I40E_SUCCESS) {
*reg_val = ((u64)LE32_TO_CPU(cmd_resp->value_high) << 32) |
(u64)LE32_TO_CPU(cmd_resp->value_low);
}
return status;
}
/**
* i40e_aq_debug_write_register
* @hw: pointer to the hw struct
* @reg_addr: register address
* @reg_val: register value
* @cmd_details: pointer to command details structure or NULL
*
* Write to a register using the admin queue commands
**/
enum i40e_status_code i40e_aq_debug_write_register(struct i40e_hw *hw,
u32 reg_addr, u64 reg_val,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_debug_reg_read_write *cmd =
(struct i40e_aqc_debug_reg_read_write *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_debug_write_reg);
cmd->address = CPU_TO_LE32(reg_addr);
cmd->value_high = CPU_TO_LE32((u32)(reg_val >> 32));
cmd->value_low = CPU_TO_LE32((u32)(reg_val & 0xFFFFFFFF));
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_request_resource
* @hw: pointer to the hw struct
* @resource: resource id
* @access: access type
* @sdp_number: resource number
* @timeout: the maximum time in ms that the driver may hold the resource
* @cmd_details: pointer to command details structure or NULL
*
* requests common resource using the admin queue commands
**/
enum i40e_status_code i40e_aq_request_resource(struct i40e_hw *hw,
enum i40e_aq_resources_ids resource,
enum i40e_aq_resource_access_type access,
u8 sdp_number, u64 *timeout,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_request_resource *cmd_resp =
(struct i40e_aqc_request_resource *)&desc.params.raw;
enum i40e_status_code status;
DEBUGFUNC("i40e_aq_request_resource");
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_request_resource);
cmd_resp->resource_id = CPU_TO_LE16(resource);
cmd_resp->access_type = CPU_TO_LE16(access);
cmd_resp->resource_number = CPU_TO_LE32(sdp_number);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
/* The completion specifies the maximum time in ms that the driver
* may hold the resource in the Timeout field.
* If the resource is held by someone else, the command completes with
* busy return value and the timeout field indicates the maximum time
* the current owner of the resource has to free it.
*/
if (status == I40E_SUCCESS || hw->aq.asq_last_status == I40E_AQ_RC_EBUSY)
*timeout = LE32_TO_CPU(cmd_resp->timeout);
return status;
}
/**
* i40e_aq_release_resource
* @hw: pointer to the hw struct
* @resource: resource id
* @sdp_number: resource number
* @cmd_details: pointer to command details structure or NULL
*
* release common resource using the admin queue commands
**/
enum i40e_status_code i40e_aq_release_resource(struct i40e_hw *hw,
enum i40e_aq_resources_ids resource,
u8 sdp_number,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_request_resource *cmd =
(struct i40e_aqc_request_resource *)&desc.params.raw;
enum i40e_status_code status;
DEBUGFUNC("i40e_aq_release_resource");
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_release_resource);
cmd->resource_id = CPU_TO_LE16(resource);
cmd->resource_number = CPU_TO_LE32(sdp_number);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_read_nvm
* @hw: pointer to the hw struct
* @module_pointer: module pointer location in words from the NVM beginning
* @offset: byte offset from the module beginning
* @length: length of the section to be read (in bytes from the offset)
* @data: command buffer (size [bytes] = length)
* @last_command: tells if this is the last command in a series
* @cmd_details: pointer to command details structure or NULL
*
* Read the NVM using the admin queue commands
**/
enum i40e_status_code i40e_aq_read_nvm(struct i40e_hw *hw, u8 module_pointer,
u32 offset, u16 length, void *data,
bool last_command,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_nvm_update *cmd =
(struct i40e_aqc_nvm_update *)&desc.params.raw;
enum i40e_status_code status;
DEBUGFUNC("i40e_aq_read_nvm");
/* In offset the highest byte must be zeroed. */
if (offset & 0xFF000000) {
status = I40E_ERR_PARAM;
goto i40e_aq_read_nvm_exit;
}
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_nvm_read);
/* If this is the last command in a series, set the proper flag. */
if (last_command)
cmd->command_flags |= I40E_AQ_NVM_LAST_CMD;
cmd->module_pointer = module_pointer;
cmd->offset = CPU_TO_LE32(offset);
cmd->length = CPU_TO_LE16(length);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
if (length > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
status = i40e_asq_send_command(hw, &desc, data, length, cmd_details);
i40e_aq_read_nvm_exit:
return status;
}
/**
* i40e_aq_read_nvm_config - read an nvm config block
* @hw: pointer to the hw struct
* @cmd_flags: NVM access admin command bits
* @field_id: field or feature id
* @data: buffer for result
* @buf_size: buffer size
* @element_count: pointer to count of elements read by FW
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_read_nvm_config(struct i40e_hw *hw,
u8 cmd_flags, u32 field_id, void *data,
u16 buf_size, u16 *element_count,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_nvm_config_read *cmd =
(struct i40e_aqc_nvm_config_read *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_nvm_config_read);
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF));
if (buf_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
cmd->cmd_flags = CPU_TO_LE16(cmd_flags);
cmd->element_id = CPU_TO_LE16((u16)(0xffff & field_id));
if (cmd_flags & I40E_AQ_ANVM_FEATURE_OR_IMMEDIATE_MASK)
cmd->element_id_msw = CPU_TO_LE16((u16)(field_id >> 16));
else
cmd->element_id_msw = 0;
status = i40e_asq_send_command(hw, &desc, data, buf_size, cmd_details);
if (!status && element_count)
*element_count = LE16_TO_CPU(cmd->element_count);
return status;
}
/**
* i40e_aq_write_nvm_config - write an nvm config block
* @hw: pointer to the hw struct
* @cmd_flags: NVM access admin command bits
* @data: buffer for result
* @buf_size: buffer size
* @element_count: count of elements to be written
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_write_nvm_config(struct i40e_hw *hw,
u8 cmd_flags, void *data, u16 buf_size,
u16 element_count,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_nvm_config_write *cmd =
(struct i40e_aqc_nvm_config_write *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_nvm_config_write);
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
if (buf_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
cmd->element_count = CPU_TO_LE16(element_count);
cmd->cmd_flags = CPU_TO_LE16(cmd_flags);
status = i40e_asq_send_command(hw, &desc, data, buf_size, cmd_details);
return status;
}
/**
* i40e_aq_oem_post_update - triggers an OEM specific flow after update
* @hw: pointer to the hw struct
* @buff: buffer for result
* @buff_size: buffer size
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_oem_post_update(struct i40e_hw *hw,
void *buff, u16 buff_size,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
enum i40e_status_code status;
UNREFERENCED_2PARAMETER(buff, buff_size);
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_oem_post_update);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (status && LE16_TO_CPU(desc.retval) == I40E_AQ_RC_ESRCH)
status = I40E_ERR_NOT_IMPLEMENTED;
return status;
}
/**
* i40e_aq_erase_nvm
* @hw: pointer to the hw struct
* @module_pointer: module pointer location in words from the NVM beginning
* @offset: offset in the module (expressed in 4 KB from module's beginning)
* @length: length of the section to be erased (expressed in 4 KB)
* @last_command: tells if this is the last command in a series
* @cmd_details: pointer to command details structure or NULL
*
* Erase the NVM sector using the admin queue commands
**/
enum i40e_status_code i40e_aq_erase_nvm(struct i40e_hw *hw, u8 module_pointer,
u32 offset, u16 length, bool last_command,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_nvm_update *cmd =
(struct i40e_aqc_nvm_update *)&desc.params.raw;
enum i40e_status_code status;
DEBUGFUNC("i40e_aq_erase_nvm");
/* In offset the highest byte must be zeroed. */
if (offset & 0xFF000000) {
status = I40E_ERR_PARAM;
goto i40e_aq_erase_nvm_exit;
}
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_nvm_erase);
/* If this is the last command in a series, set the proper flag. */
if (last_command)
cmd->command_flags |= I40E_AQ_NVM_LAST_CMD;
cmd->module_pointer = module_pointer;
cmd->offset = CPU_TO_LE32(offset);
cmd->length = CPU_TO_LE16(length);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
i40e_aq_erase_nvm_exit:
return status;
}
/**
* i40e_parse_discover_capabilities
* @hw: pointer to the hw struct
* @buff: pointer to a buffer containing device/function capability records
* @cap_count: number of capability records in the list
* @list_type_opc: type of capabilities list to parse
*
* Parse the device/function capabilities list.
**/
STATIC void i40e_parse_discover_capabilities(struct i40e_hw *hw, void *buff,
u32 cap_count,
enum i40e_admin_queue_opc list_type_opc)
{
struct i40e_aqc_list_capabilities_element_resp *cap;
u32 valid_functions, num_functions;
u32 number, logical_id, phys_id;
struct i40e_hw_capabilities *p;
u8 major_rev;
u32 i = 0;
u16 id;
cap = (struct i40e_aqc_list_capabilities_element_resp *) buff;
if (list_type_opc == i40e_aqc_opc_list_dev_capabilities)
p = (struct i40e_hw_capabilities *)&hw->dev_caps;
else if (list_type_opc == i40e_aqc_opc_list_func_capabilities)
p = (struct i40e_hw_capabilities *)&hw->func_caps;
else
return;
for (i = 0; i < cap_count; i++, cap++) {
id = LE16_TO_CPU(cap->id);
number = LE32_TO_CPU(cap->number);
logical_id = LE32_TO_CPU(cap->logical_id);
phys_id = LE32_TO_CPU(cap->phys_id);
major_rev = cap->major_rev;
switch (id) {
case I40E_AQ_CAP_ID_SWITCH_MODE:
p->switch_mode = number;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: Switch mode = %d\n",
p->switch_mode);
break;
case I40E_AQ_CAP_ID_MNG_MODE:
p->management_mode = number;
if (major_rev > 1) {
p->mng_protocols_over_mctp = logical_id;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: Protocols over MCTP = %d\n",
p->mng_protocols_over_mctp);
} else {
p->mng_protocols_over_mctp = 0;
}
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: Management Mode = %d\n",
p->management_mode);
break;
case I40E_AQ_CAP_ID_NPAR_ACTIVE:
p->npar_enable = number;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: NPAR enable = %d\n",
p->npar_enable);
break;
case I40E_AQ_CAP_ID_OS2BMC_CAP:
p->os2bmc = number;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: OS2BMC = %d\n", p->os2bmc);
break;
case I40E_AQ_CAP_ID_FUNCTIONS_VALID:
p->valid_functions = number;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: Valid Functions = %d\n",
p->valid_functions);
break;
case I40E_AQ_CAP_ID_SRIOV:
if (number == 1)
p->sr_iov_1_1 = true;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: SR-IOV = %d\n",
p->sr_iov_1_1);
break;
case I40E_AQ_CAP_ID_VF:
p->num_vfs = number;
p->vf_base_id = logical_id;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: VF count = %d\n",
p->num_vfs);
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: VF base_id = %d\n",
p->vf_base_id);
break;
case I40E_AQ_CAP_ID_VMDQ:
if (number == 1)
p->vmdq = true;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: VMDQ = %d\n", p->vmdq);
break;
case I40E_AQ_CAP_ID_8021QBG:
if (number == 1)
p->evb_802_1_qbg = true;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: 802.1Qbg = %d\n", number);
break;
case I40E_AQ_CAP_ID_8021QBR:
if (number == 1)
p->evb_802_1_qbh = true;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: 802.1Qbh = %d\n", number);
break;
case I40E_AQ_CAP_ID_VSI:
p->num_vsis = number;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: VSI count = %d\n",
p->num_vsis);
break;
case I40E_AQ_CAP_ID_DCB:
if (number == 1) {
p->dcb = true;
p->enabled_tcmap = logical_id;
p->maxtc = phys_id;
}
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: DCB = %d\n", p->dcb);
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: TC Mapping = %d\n",
logical_id);
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: TC Max = %d\n", p->maxtc);
break;
case I40E_AQ_CAP_ID_FCOE:
if (number == 1)
p->fcoe = true;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: FCOE = %d\n", p->fcoe);
break;
case I40E_AQ_CAP_ID_ISCSI:
if (number == 1)
p->iscsi = true;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: iSCSI = %d\n", p->iscsi);
break;
case I40E_AQ_CAP_ID_RSS:
p->rss = true;
p->rss_table_size = number;
p->rss_table_entry_width = logical_id;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: RSS = %d\n", p->rss);
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: RSS table size = %d\n",
p->rss_table_size);
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: RSS table width = %d\n",
p->rss_table_entry_width);
break;
case I40E_AQ_CAP_ID_RXQ:
p->num_rx_qp = number;
p->base_queue = phys_id;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: Rx QP = %d\n", number);
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: base_queue = %d\n",
p->base_queue);
break;
case I40E_AQ_CAP_ID_TXQ:
p->num_tx_qp = number;
p->base_queue = phys_id;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: Tx QP = %d\n", number);
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: base_queue = %d\n",
p->base_queue);
break;
case I40E_AQ_CAP_ID_MSIX:
p->num_msix_vectors = number;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: MSIX vector count = %d\n",
p->num_msix_vectors);
break;
case I40E_AQ_CAP_ID_VF_MSIX:
p->num_msix_vectors_vf = number;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: MSIX VF vector count = %d\n",
p->num_msix_vectors_vf);
break;
case I40E_AQ_CAP_ID_FLEX10:
if (major_rev == 1) {
if (number == 1) {
p->flex10_enable = true;
p->flex10_capable = true;
}
} else {
/* Capability revision >= 2 */
if (number & 1)
p->flex10_enable = true;
if (number & 2)
p->flex10_capable = true;
}
p->flex10_mode = logical_id;
p->flex10_status = phys_id;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: Flex10 mode = %d\n",
p->flex10_mode);
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: Flex10 status = %d\n",
p->flex10_status);
break;
case I40E_AQ_CAP_ID_CEM:
if (number == 1)
p->mgmt_cem = true;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: CEM = %d\n", p->mgmt_cem);
break;
case I40E_AQ_CAP_ID_IWARP:
if (number == 1)
p->iwarp = true;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: iWARP = %d\n", p->iwarp);
break;
case I40E_AQ_CAP_ID_LED:
if (phys_id < I40E_HW_CAP_MAX_GPIO)
p->led[phys_id] = true;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: LED - PIN %d\n", phys_id);
break;
case I40E_AQ_CAP_ID_SDP:
if (phys_id < I40E_HW_CAP_MAX_GPIO)
p->sdp[phys_id] = true;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: SDP - PIN %d\n", phys_id);
break;
case I40E_AQ_CAP_ID_MDIO:
if (number == 1) {
p->mdio_port_num = phys_id;
p->mdio_port_mode = logical_id;
}
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: MDIO port number = %d\n",
p->mdio_port_num);
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: MDIO port mode = %d\n",
p->mdio_port_mode);
break;
case I40E_AQ_CAP_ID_1588:
if (number == 1)
p->ieee_1588 = true;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: IEEE 1588 = %d\n",
p->ieee_1588);
break;
case I40E_AQ_CAP_ID_FLOW_DIRECTOR:
p->fd = true;
p->fd_filters_guaranteed = number;
p->fd_filters_best_effort = logical_id;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: Flow Director = 1\n");
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: Guaranteed FD filters = %d\n",
p->fd_filters_guaranteed);
break;
case I40E_AQ_CAP_ID_WSR_PROT:
p->wr_csr_prot = (u64)number;
p->wr_csr_prot |= (u64)logical_id << 32;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: wr_csr_prot = 0x%llX\n\n",
(p->wr_csr_prot & 0xffff));
break;
case I40E_AQ_CAP_ID_NVM_MGMT:
if (number & I40E_NVM_MGMT_SEC_REV_DISABLED)
p->sec_rev_disabled = true;
if (number & I40E_NVM_MGMT_UPDATE_DISABLED)
p->update_disabled = true;
break;
case I40E_AQ_CAP_ID_WOL_AND_PROXY:
hw->num_wol_proxy_filters = (u16)number;
hw->wol_proxy_vsi_seid = (u16)logical_id;
p->apm_wol_support = phys_id & I40E_WOL_SUPPORT_MASK;
if (phys_id & I40E_ACPI_PROGRAMMING_METHOD_MASK)
p->acpi_prog_method = I40E_ACPI_PROGRAMMING_METHOD_AQC_FPK;
else
p->acpi_prog_method = I40E_ACPI_PROGRAMMING_METHOD_HW_FVL;
p->proxy_support = (phys_id & I40E_PROXY_SUPPORT_MASK) ? 1 : 0;
i40e_debug(hw, I40E_DEBUG_INIT,
"HW Capability: WOL proxy filters = %d\n",
hw->num_wol_proxy_filters);
break;
default:
break;
}
}
if (p->fcoe)
i40e_debug(hw, I40E_DEBUG_ALL, "device is FCoE capable\n");
/* Always disable FCoE if compiled without the I40E_FCOE_ENA flag */
p->fcoe = false;
/* count the enabled ports (aka the "not disabled" ports) */
hw->num_ports = 0;
for (i = 0; i < 4; i++) {
u32 port_cfg_reg = I40E_PRTGEN_CNF + (4 * i);
u64 port_cfg = 0;
/* use AQ read to get the physical register offset instead
* of the port relative offset
*/
i40e_aq_debug_read_register(hw, port_cfg_reg, &port_cfg, NULL);
if (!(port_cfg & I40E_PRTGEN_CNF_PORT_DIS_MASK))
hw->num_ports++;
}
valid_functions = p->valid_functions;
num_functions = 0;
while (valid_functions) {
if (valid_functions & 1)
num_functions++;
valid_functions >>= 1;
}
/* partition id is 1-based, and functions are evenly spread
* across the ports as partitions
*/
if (hw->num_ports != 0) {
hw->partition_id = (hw->pf_id / hw->num_ports) + 1;
hw->num_partitions = num_functions / hw->num_ports;
}
/* additional HW specific goodies that might
* someday be HW version specific
*/
p->rx_buf_chain_len = I40E_MAX_CHAINED_RX_BUFFERS;
}
/**
* i40e_aq_discover_capabilities
* @hw: pointer to the hw struct
* @buff: a virtual buffer to hold the capabilities
* @buff_size: Size of the virtual buffer
* @data_size: Size of the returned data, or buff size needed if AQ err==ENOMEM
* @list_type_opc: capabilities type to discover - pass in the command opcode
* @cmd_details: pointer to command details structure or NULL
*
* Get the device capabilities descriptions from the firmware
**/
enum i40e_status_code i40e_aq_discover_capabilities(struct i40e_hw *hw,
void *buff, u16 buff_size, u16 *data_size,
enum i40e_admin_queue_opc list_type_opc,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aqc_list_capabilites *cmd;
struct i40e_aq_desc desc;
enum i40e_status_code status = I40E_SUCCESS;
cmd = (struct i40e_aqc_list_capabilites *)&desc.params.raw;
if (list_type_opc != i40e_aqc_opc_list_func_capabilities &&
list_type_opc != i40e_aqc_opc_list_dev_capabilities) {
status = I40E_ERR_PARAM;
goto exit;
}
i40e_fill_default_direct_cmd_desc(&desc, list_type_opc);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
if (buff_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
status = i40e_asq_send_command(hw, &desc, buff, buff_size, cmd_details);
*data_size = LE16_TO_CPU(desc.datalen);
if (status)
goto exit;
i40e_parse_discover_capabilities(hw, buff, LE32_TO_CPU(cmd->count),
list_type_opc);
exit:
return status;
}
/**
* i40e_aq_update_nvm
* @hw: pointer to the hw struct
* @module_pointer: module pointer location in words from the NVM beginning
* @offset: byte offset from the module beginning
* @length: length of the section to be written (in bytes from the offset)
* @data: command buffer (size [bytes] = length)
* @last_command: tells if this is the last command in a series
* @preservation_flags: Preservation mode flags
* @cmd_details: pointer to command details structure or NULL
*
* Update the NVM using the admin queue commands
**/
enum i40e_status_code i40e_aq_update_nvm(struct i40e_hw *hw, u8 module_pointer,
u32 offset, u16 length, void *data,
bool last_command, u8 preservation_flags,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_nvm_update *cmd =
(struct i40e_aqc_nvm_update *)&desc.params.raw;
enum i40e_status_code status;
DEBUGFUNC("i40e_aq_update_nvm");
/* In offset the highest byte must be zeroed. */
if (offset & 0xFF000000) {
status = I40E_ERR_PARAM;
goto i40e_aq_update_nvm_exit;
}
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_nvm_update);
/* If this is the last command in a series, set the proper flag. */
if (last_command)
cmd->command_flags |= I40E_AQ_NVM_LAST_CMD;
if (hw->mac.type == I40E_MAC_X722) {
if (preservation_flags == I40E_NVM_PRESERVATION_FLAGS_SELECTED)
cmd->command_flags |=
(I40E_AQ_NVM_PRESERVATION_FLAGS_SELECTED <<
I40E_AQ_NVM_PRESERVATION_FLAGS_SHIFT);
else if (preservation_flags == I40E_NVM_PRESERVATION_FLAGS_ALL)
cmd->command_flags |=
(I40E_AQ_NVM_PRESERVATION_FLAGS_ALL <<
I40E_AQ_NVM_PRESERVATION_FLAGS_SHIFT);
}
cmd->module_pointer = module_pointer;
cmd->offset = CPU_TO_LE32(offset);
cmd->length = CPU_TO_LE16(length);
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
if (length > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
status = i40e_asq_send_command(hw, &desc, data, length, cmd_details);
i40e_aq_update_nvm_exit:
return status;
}
/**
* i40e_aq_nvm_progress
* @hw: pointer to the hw struct
* @progress: pointer to progress returned from AQ
* @cmd_details: pointer to command details structure or NULL
*
* Gets progress of flash rearrangement process
**/
enum i40e_status_code i40e_aq_nvm_progress(struct i40e_hw *hw, u8 *progress,
struct i40e_asq_cmd_details *cmd_details)
{
enum i40e_status_code status;
struct i40e_aq_desc desc;
DEBUGFUNC("i40e_aq_nvm_progress");
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_nvm_progress);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
*progress = desc.params.raw[0];
return status;
}
/**
* i40e_aq_get_lldp_mib
* @hw: pointer to the hw struct
* @bridge_type: type of bridge requested
* @mib_type: Local, Remote or both Local and Remote MIBs
* @buff: pointer to a user supplied buffer to store the MIB block
* @buff_size: size of the buffer (in bytes)
* @local_len : length of the returned Local LLDP MIB
* @remote_len: length of the returned Remote LLDP MIB
* @cmd_details: pointer to command details structure or NULL
*
* Requests the complete LLDP MIB (entire packet).
**/
enum i40e_status_code i40e_aq_get_lldp_mib(struct i40e_hw *hw, u8 bridge_type,
u8 mib_type, void *buff, u16 buff_size,
u16 *local_len, u16 *remote_len,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_lldp_get_mib *cmd =
(struct i40e_aqc_lldp_get_mib *)&desc.params.raw;
struct i40e_aqc_lldp_get_mib *resp =
(struct i40e_aqc_lldp_get_mib *)&desc.params.raw;
enum i40e_status_code status;
if (buff_size == 0 || !buff)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_lldp_get_mib);
/* Indirect Command */
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
cmd->type = mib_type & I40E_AQ_LLDP_MIB_TYPE_MASK;
cmd->type |= ((bridge_type << I40E_AQ_LLDP_BRIDGE_TYPE_SHIFT) &
I40E_AQ_LLDP_BRIDGE_TYPE_MASK);
desc.datalen = CPU_TO_LE16(buff_size);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
if (buff_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
status = i40e_asq_send_command(hw, &desc, buff, buff_size, cmd_details);
if (!status) {
if (local_len != NULL)
*local_len = LE16_TO_CPU(resp->local_len);
if (remote_len != NULL)
*remote_len = LE16_TO_CPU(resp->remote_len);
}
return status;
}
/**
* i40e_aq_set_lldp_mib - Set the LLDP MIB
* @hw: pointer to the hw struct
* @mib_type: Local, Remote or both Local and Remote MIBs
* @buff: pointer to a user supplied buffer to store the MIB block
* @buff_size: size of the buffer (in bytes)
* @cmd_details: pointer to command details structure or NULL
*
* Set the LLDP MIB.
**/
enum i40e_status_code i40e_aq_set_lldp_mib(struct i40e_hw *hw,
u8 mib_type, void *buff, u16 buff_size,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_lldp_set_local_mib *cmd =
(struct i40e_aqc_lldp_set_local_mib *)&desc.params.raw;
enum i40e_status_code status;
if (buff_size == 0 || !buff)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_lldp_set_local_mib);
/* Indirect Command */
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
if (buff_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
desc.datalen = CPU_TO_LE16(buff_size);
cmd->type = mib_type;
cmd->length = CPU_TO_LE16(buff_size);
cmd->address_high = CPU_TO_LE32(I40E_HI_WORD((u64)buff));
cmd->address_low = CPU_TO_LE32(I40E_LO_DWORD((u64)buff));
status = i40e_asq_send_command(hw, &desc, buff, buff_size, cmd_details);
return status;
}
/**
* i40e_aq_cfg_lldp_mib_change_event
* @hw: pointer to the hw struct
* @enable_update: Enable or Disable event posting
* @cmd_details: pointer to command details structure or NULL
*
* Enable or Disable posting of an event on ARQ when LLDP MIB
* associated with the interface changes
**/
enum i40e_status_code i40e_aq_cfg_lldp_mib_change_event(struct i40e_hw *hw,
bool enable_update,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_lldp_update_mib *cmd =
(struct i40e_aqc_lldp_update_mib *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_lldp_update_mib);
if (!enable_update)
cmd->command |= I40E_AQ_LLDP_MIB_UPDATE_DISABLE;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_add_lldp_tlv
* @hw: pointer to the hw struct
* @bridge_type: type of bridge
* @buff: buffer with TLV to add
* @buff_size: length of the buffer
* @tlv_len: length of the TLV to be added
* @mib_len: length of the LLDP MIB returned in response
* @cmd_details: pointer to command details structure or NULL
*
* Add the specified TLV to LLDP Local MIB for the given bridge type,
* it is responsibility of the caller to make sure that the TLV is not
* already present in the LLDPDU.
* In return firmware will write the complete LLDP MIB with the newly
* added TLV in the response buffer.
**/
enum i40e_status_code i40e_aq_add_lldp_tlv(struct i40e_hw *hw, u8 bridge_type,
void *buff, u16 buff_size, u16 tlv_len,
u16 *mib_len,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_lldp_add_tlv *cmd =
(struct i40e_aqc_lldp_add_tlv *)&desc.params.raw;
enum i40e_status_code status;
if (buff_size == 0 || !buff || tlv_len == 0)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_lldp_add_tlv);
/* Indirect Command */
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
if (buff_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
desc.datalen = CPU_TO_LE16(buff_size);
cmd->type = ((bridge_type << I40E_AQ_LLDP_BRIDGE_TYPE_SHIFT) &
I40E_AQ_LLDP_BRIDGE_TYPE_MASK);
cmd->len = CPU_TO_LE16(tlv_len);
status = i40e_asq_send_command(hw, &desc, buff, buff_size, cmd_details);
if (!status) {
if (mib_len != NULL)
*mib_len = LE16_TO_CPU(desc.datalen);
}
return status;
}
/**
* i40e_aq_update_lldp_tlv
* @hw: pointer to the hw struct
* @bridge_type: type of bridge
* @buff: buffer with TLV to update
* @buff_size: size of the buffer holding original and updated TLVs
* @old_len: Length of the Original TLV
* @new_len: Length of the Updated TLV
* @offset: offset of the updated TLV in the buff
* @mib_len: length of the returned LLDP MIB
* @cmd_details: pointer to command details structure or NULL
*
* Update the specified TLV to the LLDP Local MIB for the given bridge type.
* Firmware will place the complete LLDP MIB in response buffer with the
* updated TLV.
**/
enum i40e_status_code i40e_aq_update_lldp_tlv(struct i40e_hw *hw,
u8 bridge_type, void *buff, u16 buff_size,
u16 old_len, u16 new_len, u16 offset,
u16 *mib_len,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_lldp_update_tlv *cmd =
(struct i40e_aqc_lldp_update_tlv *)&desc.params.raw;
enum i40e_status_code status;
if (buff_size == 0 || !buff || offset == 0 ||
old_len == 0 || new_len == 0)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_lldp_update_tlv);
/* Indirect Command */
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
if (buff_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
desc.datalen = CPU_TO_LE16(buff_size);
cmd->type = ((bridge_type << I40E_AQ_LLDP_BRIDGE_TYPE_SHIFT) &
I40E_AQ_LLDP_BRIDGE_TYPE_MASK);
cmd->old_len = CPU_TO_LE16(old_len);
cmd->new_offset = CPU_TO_LE16(offset);
cmd->new_len = CPU_TO_LE16(new_len);
status = i40e_asq_send_command(hw, &desc, buff, buff_size, cmd_details);
if (!status) {
if (mib_len != NULL)
*mib_len = LE16_TO_CPU(desc.datalen);
}
return status;
}
/**
* i40e_aq_delete_lldp_tlv
* @hw: pointer to the hw struct
* @bridge_type: type of bridge
* @buff: pointer to a user supplied buffer that has the TLV
* @buff_size: length of the buffer
* @tlv_len: length of the TLV to be deleted
* @mib_len: length of the returned LLDP MIB
* @cmd_details: pointer to command details structure or NULL
*
* Delete the specified TLV from LLDP Local MIB for the given bridge type.
* The firmware places the entire LLDP MIB in the response buffer.
**/
enum i40e_status_code i40e_aq_delete_lldp_tlv(struct i40e_hw *hw,
u8 bridge_type, void *buff, u16 buff_size,
u16 tlv_len, u16 *mib_len,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_lldp_add_tlv *cmd =
(struct i40e_aqc_lldp_add_tlv *)&desc.params.raw;
enum i40e_status_code status;
if (buff_size == 0 || !buff)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_lldp_delete_tlv);
/* Indirect Command */
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
if (buff_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
desc.datalen = CPU_TO_LE16(buff_size);
cmd->len = CPU_TO_LE16(tlv_len);
cmd->type = ((bridge_type << I40E_AQ_LLDP_BRIDGE_TYPE_SHIFT) &
I40E_AQ_LLDP_BRIDGE_TYPE_MASK);
status = i40e_asq_send_command(hw, &desc, buff, buff_size, cmd_details);
if (!status) {
if (mib_len != NULL)
*mib_len = LE16_TO_CPU(desc.datalen);
}
return status;
}
/**
* i40e_aq_stop_lldp
* @hw: pointer to the hw struct
* @shutdown_agent: True if LLDP Agent needs to be Shutdown
* @cmd_details: pointer to command details structure or NULL
*
* Stop or Shutdown the embedded LLDP Agent
**/
enum i40e_status_code i40e_aq_stop_lldp(struct i40e_hw *hw, bool shutdown_agent,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_lldp_stop *cmd =
(struct i40e_aqc_lldp_stop *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_lldp_stop);
if (shutdown_agent)
cmd->command |= I40E_AQ_LLDP_AGENT_SHUTDOWN;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_start_lldp
* @hw: pointer to the hw struct
* @cmd_details: pointer to command details structure or NULL
*
* Start the embedded LLDP Agent on all ports.
**/
enum i40e_status_code i40e_aq_start_lldp(struct i40e_hw *hw,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_lldp_start *cmd =
(struct i40e_aqc_lldp_start *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_lldp_start);
cmd->command = I40E_AQ_LLDP_AGENT_START;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_set_dcb_parameters
* @hw: pointer to the hw struct
* @cmd_details: pointer to command details structure or NULL
* @dcb_enable: True if DCB configuration needs to be applied
*
**/
enum i40e_status_code
i40e_aq_set_dcb_parameters(struct i40e_hw *hw, bool dcb_enable,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_dcb_parameters *cmd =
(struct i40e_aqc_set_dcb_parameters *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_dcb_parameters);
if (dcb_enable) {
cmd->valid_flags = I40E_DCB_VALID;
cmd->command = I40E_AQ_DCB_SET_AGENT;
}
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_get_cee_dcb_config
* @hw: pointer to the hw struct
* @buff: response buffer that stores CEE operational configuration
* @buff_size: size of the buffer passed
* @cmd_details: pointer to command details structure or NULL
*
* Get CEE DCBX mode operational configuration from firmware
**/
enum i40e_status_code i40e_aq_get_cee_dcb_config(struct i40e_hw *hw,
void *buff, u16 buff_size,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
enum i40e_status_code status;
if (buff_size == 0 || !buff)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_get_cee_dcb_cfg);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
status = i40e_asq_send_command(hw, &desc, (void *)buff, buff_size,
cmd_details);
return status;
}
/**
* i40e_aq_start_stop_dcbx - Start/Stop DCBx service in FW
* @hw: pointer to the hw struct
* @start_agent: True if DCBx Agent needs to be Started
* False if DCBx Agent needs to be Stopped
* @cmd_details: pointer to command details structure or NULL
*
* Start/Stop the embedded dcbx Agent
**/
enum i40e_status_code i40e_aq_start_stop_dcbx(struct i40e_hw *hw,
bool start_agent,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_lldp_stop_start_specific_agent *cmd =
(struct i40e_aqc_lldp_stop_start_specific_agent *)
&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_lldp_stop_start_spec_agent);
if (start_agent)
cmd->command = I40E_AQC_START_SPECIFIC_AGENT_MASK;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_add_udp_tunnel
* @hw: pointer to the hw struct
* @udp_port: the UDP port to add in Host byte order
* @protocol_index: protocol index type
* @filter_index: pointer to filter index
* @cmd_details: pointer to command details structure or NULL
*
* Note: Firmware expects the udp_port value to be in Little Endian format,
* and this function will call CPU_TO_LE16 to convert from Host byte order to
* Little Endian order.
**/
enum i40e_status_code i40e_aq_add_udp_tunnel(struct i40e_hw *hw,
u16 udp_port, u8 protocol_index,
u8 *filter_index,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_udp_tunnel *cmd =
(struct i40e_aqc_add_udp_tunnel *)&desc.params.raw;
struct i40e_aqc_del_udp_tunnel_completion *resp =
(struct i40e_aqc_del_udp_tunnel_completion *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_add_udp_tunnel);
cmd->udp_port = CPU_TO_LE16(udp_port);
cmd->protocol_type = protocol_index;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (!status && filter_index)
*filter_index = resp->index;
return status;
}
/**
* i40e_aq_del_udp_tunnel
* @hw: pointer to the hw struct
* @index: filter index
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_del_udp_tunnel(struct i40e_hw *hw, u8 index,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_remove_udp_tunnel *cmd =
(struct i40e_aqc_remove_udp_tunnel *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_del_udp_tunnel);
cmd->index = index;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_get_switch_resource_alloc (0x0204)
* @hw: pointer to the hw struct
* @num_entries: pointer to u8 to store the number of resource entries returned
* @buf: pointer to a user supplied buffer. This buffer must be large enough
* to store the resource information for all resource types. Each
* resource type is a i40e_aqc_switch_resource_alloc_data structure.
* @count: size, in bytes, of the buffer provided
* @cmd_details: pointer to command details structure or NULL
*
* Query the resources allocated to a function.
**/
enum i40e_status_code i40e_aq_get_switch_resource_alloc(struct i40e_hw *hw,
u8 *num_entries,
struct i40e_aqc_switch_resource_alloc_element_resp *buf,
u16 count,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_get_switch_resource_alloc *cmd_resp =
(struct i40e_aqc_get_switch_resource_alloc *)&desc.params.raw;
enum i40e_status_code status;
u16 length = count * sizeof(*buf);
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_get_switch_resource_alloc);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
if (length > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
status = i40e_asq_send_command(hw, &desc, buf, length, cmd_details);
if (!status && num_entries)
*num_entries = cmd_resp->num_entries;
return status;
}
/**
* i40e_aq_delete_element - Delete switch element
* @hw: pointer to the hw struct
* @seid: the SEID to delete from the switch
* @cmd_details: pointer to command details structure or NULL
*
* This deletes a switch element from the switch.
**/
enum i40e_status_code i40e_aq_delete_element(struct i40e_hw *hw, u16 seid,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_switch_seid *cmd =
(struct i40e_aqc_switch_seid *)&desc.params.raw;
enum i40e_status_code status;
if (seid == 0)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_delete_element);
cmd->seid = CPU_TO_LE16(seid);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_add_pvirt - Instantiate a Port Virtualizer on a port
* @hw: pointer to the hw struct
* @flags: component flags
* @mac_seid: uplink seid (MAC SEID)
* @vsi_seid: connected vsi seid
* @ret_seid: seid of create pv component
*
* This instantiates an i40e port virtualizer with specified flags.
* Depending on specified flags the port virtualizer can act as a
* 802.1Qbr port virtualizer or a 802.1Qbg S-component.
*/
enum i40e_status_code i40e_aq_add_pvirt(struct i40e_hw *hw, u16 flags,
u16 mac_seid, u16 vsi_seid,
u16 *ret_seid)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_update_pv *cmd =
(struct i40e_aqc_add_update_pv *)&desc.params.raw;
struct i40e_aqc_add_update_pv_completion *resp =
(struct i40e_aqc_add_update_pv_completion *)&desc.params.raw;
enum i40e_status_code status;
if (vsi_seid == 0)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_add_pv);
cmd->command_flags = CPU_TO_LE16(flags);
cmd->uplink_seid = CPU_TO_LE16(mac_seid);
cmd->connected_seid = CPU_TO_LE16(vsi_seid);
status = i40e_asq_send_command(hw, &desc, NULL, 0, NULL);
if (!status && ret_seid)
*ret_seid = LE16_TO_CPU(resp->pv_seid);
return status;
}
/**
* i40e_aq_add_tag - Add an S/E-tag
* @hw: pointer to the hw struct
* @direct_to_queue: should s-tag direct flow to a specific queue
* @vsi_seid: VSI SEID to use this tag
* @tag: value of the tag
* @queue_num: queue number, only valid is direct_to_queue is true
* @tags_used: return value, number of tags in use by this PF
* @tags_free: return value, number of unallocated tags
* @cmd_details: pointer to command details structure or NULL
*
* This associates an S- or E-tag to a VSI in the switch complex. It returns
* the number of tags allocated by the PF, and the number of unallocated
* tags available.
**/
enum i40e_status_code i40e_aq_add_tag(struct i40e_hw *hw, bool direct_to_queue,
u16 vsi_seid, u16 tag, u16 queue_num,
u16 *tags_used, u16 *tags_free,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_tag *cmd =
(struct i40e_aqc_add_tag *)&desc.params.raw;
struct i40e_aqc_add_remove_tag_completion *resp =
(struct i40e_aqc_add_remove_tag_completion *)&desc.params.raw;
enum i40e_status_code status;
if (vsi_seid == 0)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_add_tag);
cmd->seid = CPU_TO_LE16(vsi_seid);
cmd->tag = CPU_TO_LE16(tag);
if (direct_to_queue) {
cmd->flags = CPU_TO_LE16(I40E_AQC_ADD_TAG_FLAG_TO_QUEUE);
cmd->queue_number = CPU_TO_LE16(queue_num);
}
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (!status) {
if (tags_used != NULL)
*tags_used = LE16_TO_CPU(resp->tags_used);
if (tags_free != NULL)
*tags_free = LE16_TO_CPU(resp->tags_free);
}
return status;
}
/**
* i40e_aq_remove_tag - Remove an S- or E-tag
* @hw: pointer to the hw struct
* @vsi_seid: VSI SEID this tag is associated with
* @tag: value of the S-tag to delete
* @tags_used: return value, number of tags in use by this PF
* @tags_free: return value, number of unallocated tags
* @cmd_details: pointer to command details structure or NULL
*
* This deletes an S- or E-tag from a VSI in the switch complex. It returns
* the number of tags allocated by the PF, and the number of unallocated
* tags available.
**/
enum i40e_status_code i40e_aq_remove_tag(struct i40e_hw *hw, u16 vsi_seid,
u16 tag, u16 *tags_used, u16 *tags_free,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_remove_tag *cmd =
(struct i40e_aqc_remove_tag *)&desc.params.raw;
struct i40e_aqc_add_remove_tag_completion *resp =
(struct i40e_aqc_add_remove_tag_completion *)&desc.params.raw;
enum i40e_status_code status;
if (vsi_seid == 0)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_remove_tag);
cmd->seid = CPU_TO_LE16(vsi_seid);
cmd->tag = CPU_TO_LE16(tag);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (!status) {
if (tags_used != NULL)
*tags_used = LE16_TO_CPU(resp->tags_used);
if (tags_free != NULL)
*tags_free = LE16_TO_CPU(resp->tags_free);
}
return status;
}
/**
* i40e_aq_add_mcast_etag - Add a multicast E-tag
* @hw: pointer to the hw struct
* @pv_seid: Port Virtualizer of this SEID to associate E-tag with
* @etag: value of E-tag to add
* @num_tags_in_buf: number of unicast E-tags in indirect buffer
* @buf: address of indirect buffer
* @tags_used: return value, number of E-tags in use by this port
* @tags_free: return value, number of unallocated M-tags
* @cmd_details: pointer to command details structure or NULL
*
* This associates a multicast E-tag to a port virtualizer. It will return
* the number of tags allocated by the PF, and the number of unallocated
* tags available.
*
* The indirect buffer pointed to by buf is a list of 2-byte E-tags,
* num_tags_in_buf long.
**/
enum i40e_status_code i40e_aq_add_mcast_etag(struct i40e_hw *hw, u16 pv_seid,
u16 etag, u8 num_tags_in_buf, void *buf,
u16 *tags_used, u16 *tags_free,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_remove_mcast_etag *cmd =
(struct i40e_aqc_add_remove_mcast_etag *)&desc.params.raw;
struct i40e_aqc_add_remove_mcast_etag_completion *resp =
(struct i40e_aqc_add_remove_mcast_etag_completion *)&desc.params.raw;
enum i40e_status_code status;
u16 length = sizeof(u16) * num_tags_in_buf;
if ((pv_seid == 0) || (buf == NULL) || (num_tags_in_buf == 0))
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_add_multicast_etag);
cmd->pv_seid = CPU_TO_LE16(pv_seid);
cmd->etag = CPU_TO_LE16(etag);
cmd->num_unicast_etags = num_tags_in_buf;
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
if (length > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
status = i40e_asq_send_command(hw, &desc, buf, length, cmd_details);
if (!status) {
if (tags_used != NULL)
*tags_used = LE16_TO_CPU(resp->mcast_etags_used);
if (tags_free != NULL)
*tags_free = LE16_TO_CPU(resp->mcast_etags_free);
}
return status;
}
/**
* i40e_aq_remove_mcast_etag - Remove a multicast E-tag
* @hw: pointer to the hw struct
* @pv_seid: Port Virtualizer SEID this M-tag is associated with
* @etag: value of the E-tag to remove
* @tags_used: return value, number of tags in use by this port
* @tags_free: return value, number of unallocated tags
* @cmd_details: pointer to command details structure or NULL
*
* This deletes an E-tag from the port virtualizer. It will return
* the number of tags allocated by the port, and the number of unallocated
* tags available.
**/
enum i40e_status_code i40e_aq_remove_mcast_etag(struct i40e_hw *hw, u16 pv_seid,
u16 etag, u16 *tags_used, u16 *tags_free,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_remove_mcast_etag *cmd =
(struct i40e_aqc_add_remove_mcast_etag *)&desc.params.raw;
struct i40e_aqc_add_remove_mcast_etag_completion *resp =
(struct i40e_aqc_add_remove_mcast_etag_completion *)&desc.params.raw;
enum i40e_status_code status;
if (pv_seid == 0)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_remove_multicast_etag);
cmd->pv_seid = CPU_TO_LE16(pv_seid);
cmd->etag = CPU_TO_LE16(etag);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (!status) {
if (tags_used != NULL)
*tags_used = LE16_TO_CPU(resp->mcast_etags_used);
if (tags_free != NULL)
*tags_free = LE16_TO_CPU(resp->mcast_etags_free);
}
return status;
}
/**
* i40e_aq_update_tag - Update an S/E-tag
* @hw: pointer to the hw struct
* @vsi_seid: VSI SEID using this S-tag
* @old_tag: old tag value
* @new_tag: new tag value
* @tags_used: return value, number of tags in use by this PF
* @tags_free: return value, number of unallocated tags
* @cmd_details: pointer to command details structure or NULL
*
* This updates the value of the tag currently attached to this VSI
* in the switch complex. It will return the number of tags allocated
* by the PF, and the number of unallocated tags available.
**/
enum i40e_status_code i40e_aq_update_tag(struct i40e_hw *hw, u16 vsi_seid,
u16 old_tag, u16 new_tag, u16 *tags_used,
u16 *tags_free,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_update_tag *cmd =
(struct i40e_aqc_update_tag *)&desc.params.raw;
struct i40e_aqc_update_tag_completion *resp =
(struct i40e_aqc_update_tag_completion *)&desc.params.raw;
enum i40e_status_code status;
if (vsi_seid == 0)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_update_tag);
cmd->seid = CPU_TO_LE16(vsi_seid);
cmd->old_tag = CPU_TO_LE16(old_tag);
cmd->new_tag = CPU_TO_LE16(new_tag);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (!status) {
if (tags_used != NULL)
*tags_used = LE16_TO_CPU(resp->tags_used);
if (tags_free != NULL)
*tags_free = LE16_TO_CPU(resp->tags_free);
}
return status;
}
/**
* i40e_aq_dcb_ignore_pfc - Ignore PFC for given TCs
* @hw: pointer to the hw struct
* @tcmap: TC map for request/release any ignore PFC condition
* @request: request or release ignore PFC condition
* @tcmap_ret: return TCs for which PFC is currently ignored
* @cmd_details: pointer to command details structure or NULL
*
* This sends out request/release to ignore PFC condition for a TC.
* It will return the TCs for which PFC is currently ignored.
**/
enum i40e_status_code i40e_aq_dcb_ignore_pfc(struct i40e_hw *hw, u8 tcmap,
bool request, u8 *tcmap_ret,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_pfc_ignore *cmd_resp =
(struct i40e_aqc_pfc_ignore *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_dcb_ignore_pfc);
if (request)
cmd_resp->command_flags = I40E_AQC_PFC_IGNORE_SET;
cmd_resp->tc_bitmap = tcmap;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (!status) {
if (tcmap_ret != NULL)
*tcmap_ret = cmd_resp->tc_bitmap;
}
return status;
}
/**
* i40e_aq_dcb_updated - DCB Updated Command
* @hw: pointer to the hw struct
* @cmd_details: pointer to command details structure or NULL
*
* When LLDP is handled in PF this command is used by the PF
* to notify EMP that a DCB setting is modified.
* When LLDP is handled in EMP this command is used by the PF
* to notify EMP whenever one of the following parameters get
* modified:
* - PFCLinkDelayAllowance in PRTDCB_GENC.PFCLDA
* - PCIRTT in PRTDCB_GENC.PCIRTT
* - Maximum Frame Size for non-FCoE TCs set by PRTDCB_TDPUC.MAX_TXFRAME.
* EMP will return when the shared RPB settings have been
* recomputed and modified. The retval field in the descriptor
* will be set to 0 when RPB is modified.
**/
enum i40e_status_code i40e_aq_dcb_updated(struct i40e_hw *hw,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_dcb_updated);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_add_statistics - Add a statistics block to a VLAN in a switch.
* @hw: pointer to the hw struct
* @seid: defines the SEID of the switch for which the stats are requested
* @vlan_id: the VLAN ID for which the statistics are requested
* @stat_index: index of the statistics counters block assigned to this VLAN
* @cmd_details: pointer to command details structure or NULL
*
* XL710 supports 128 smonVlanStats counters.This command is used to
* allocate a set of smonVlanStats counters to a specific VLAN in a specific
* switch.
**/
enum i40e_status_code i40e_aq_add_statistics(struct i40e_hw *hw, u16 seid,
u16 vlan_id, u16 *stat_index,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_remove_statistics *cmd_resp =
(struct i40e_aqc_add_remove_statistics *)&desc.params.raw;
enum i40e_status_code status;
if ((seid == 0) || (stat_index == NULL))
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_add_statistics);
cmd_resp->seid = CPU_TO_LE16(seid);
cmd_resp->vlan = CPU_TO_LE16(vlan_id);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (!status && stat_index)
*stat_index = LE16_TO_CPU(cmd_resp->stat_index);
return status;
}
/**
* i40e_aq_remove_statistics - Remove a statistics block to a VLAN in a switch.
* @hw: pointer to the hw struct
* @seid: defines the SEID of the switch for which the stats are requested
* @vlan_id: the VLAN ID for which the statistics are requested
* @stat_index: index of the statistics counters block assigned to this VLAN
* @cmd_details: pointer to command details structure or NULL
*
* XL710 supports 128 smonVlanStats counters.This command is used to
* deallocate a set of smonVlanStats counters to a specific VLAN in a specific
* switch.
**/
enum i40e_status_code i40e_aq_remove_statistics(struct i40e_hw *hw, u16 seid,
u16 vlan_id, u16 stat_index,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_remove_statistics *cmd =
(struct i40e_aqc_add_remove_statistics *)&desc.params.raw;
enum i40e_status_code status;
if (seid == 0)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_remove_statistics);
cmd->seid = CPU_TO_LE16(seid);
cmd->vlan = CPU_TO_LE16(vlan_id);
cmd->stat_index = CPU_TO_LE16(stat_index);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_set_port_parameters - set physical port parameters.
* @hw: pointer to the hw struct
* @bad_frame_vsi: defines the VSI to which bad frames are forwarded
* @save_bad_pac: if set packets with errors are forwarded to the bad frames VSI
* @pad_short_pac: if set transmit packets smaller than 60 bytes are padded
* @double_vlan: if set double VLAN is enabled
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_set_port_parameters(struct i40e_hw *hw,
u16 bad_frame_vsi, bool save_bad_pac,
bool pad_short_pac, bool double_vlan,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aqc_set_port_parameters *cmd;
enum i40e_status_code status;
struct i40e_aq_desc desc;
u16 command_flags = 0;
cmd = (struct i40e_aqc_set_port_parameters *)&desc.params.raw;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_port_parameters);
cmd->bad_frame_vsi = CPU_TO_LE16(bad_frame_vsi);
if (save_bad_pac)
command_flags |= I40E_AQ_SET_P_PARAMS_SAVE_BAD_PACKETS;
if (pad_short_pac)
command_flags |= I40E_AQ_SET_P_PARAMS_PAD_SHORT_PACKETS;
if (double_vlan)
command_flags |= I40E_AQ_SET_P_PARAMS_DOUBLE_VLAN_ENA;
cmd->command_flags = CPU_TO_LE16(command_flags);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_tx_sched_cmd - generic Tx scheduler AQ command handler
* @hw: pointer to the hw struct
* @seid: seid for the physical port/switching component/vsi
* @buff: Indirect buffer to hold data parameters and response
* @buff_size: Indirect buffer size
* @opcode: Tx scheduler AQ command opcode
* @cmd_details: pointer to command details structure or NULL
*
* Generic command handler for Tx scheduler AQ commands
**/
static enum i40e_status_code i40e_aq_tx_sched_cmd(struct i40e_hw *hw, u16 seid,
void *buff, u16 buff_size,
enum i40e_admin_queue_opc opcode,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_tx_sched_ind *cmd =
(struct i40e_aqc_tx_sched_ind *)&desc.params.raw;
enum i40e_status_code status;
bool cmd_param_flag = false;
switch (opcode) {
case i40e_aqc_opc_configure_vsi_ets_sla_bw_limit:
case i40e_aqc_opc_configure_vsi_tc_bw:
case i40e_aqc_opc_enable_switching_comp_ets:
case i40e_aqc_opc_modify_switching_comp_ets:
case i40e_aqc_opc_disable_switching_comp_ets:
case i40e_aqc_opc_configure_switching_comp_ets_bw_limit:
case i40e_aqc_opc_configure_switching_comp_bw_config:
cmd_param_flag = true;
break;
case i40e_aqc_opc_query_vsi_bw_config:
case i40e_aqc_opc_query_vsi_ets_sla_config:
case i40e_aqc_opc_query_switching_comp_ets_config:
case i40e_aqc_opc_query_port_ets_config:
case i40e_aqc_opc_query_switching_comp_bw_config:
cmd_param_flag = false;
break;
default:
return I40E_ERR_PARAM;
}
i40e_fill_default_direct_cmd_desc(&desc, opcode);
/* Indirect command */
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
if (cmd_param_flag)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_RD);
if (buff_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
desc.datalen = CPU_TO_LE16(buff_size);
cmd->vsi_seid = CPU_TO_LE16(seid);
status = i40e_asq_send_command(hw, &desc, buff, buff_size, cmd_details);
return status;
}
/**
* i40e_aq_config_vsi_bw_limit - Configure VSI BW Limit
* @hw: pointer to the hw struct
* @seid: VSI seid
* @credit: BW limit credits (0 = disabled)
* @max_credit: Max BW limit credits
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_config_vsi_bw_limit(struct i40e_hw *hw,
u16 seid, u16 credit, u8 max_credit,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_configure_vsi_bw_limit *cmd =
(struct i40e_aqc_configure_vsi_bw_limit *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_configure_vsi_bw_limit);
cmd->vsi_seid = CPU_TO_LE16(seid);
cmd->credit = CPU_TO_LE16(credit);
cmd->max_credit = max_credit;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_config_switch_comp_bw_limit - Configure Switching component BW Limit
* @hw: pointer to the hw struct
* @seid: switching component seid
* @credit: BW limit credits (0 = disabled)
* @max_bw: Max BW limit credits
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_config_switch_comp_bw_limit(struct i40e_hw *hw,
u16 seid, u16 credit, u8 max_bw,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_configure_switching_comp_bw_limit *cmd =
(struct i40e_aqc_configure_switching_comp_bw_limit *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_configure_switching_comp_bw_limit);
cmd->seid = CPU_TO_LE16(seid);
cmd->credit = CPU_TO_LE16(credit);
cmd->max_bw = max_bw;
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_config_vsi_ets_sla_bw_limit - Config VSI BW Limit per TC
* @hw: pointer to the hw struct
* @seid: VSI seid
* @bw_data: Buffer holding enabled TCs, per TC BW limit/credits
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_config_vsi_ets_sla_bw_limit(struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_configure_vsi_ets_sla_bw_data *bw_data,
struct i40e_asq_cmd_details *cmd_details)
{
return i40e_aq_tx_sched_cmd(hw, seid, (void *)bw_data, sizeof(*bw_data),
i40e_aqc_opc_configure_vsi_ets_sla_bw_limit,
cmd_details);
}
/**
* i40e_aq_config_vsi_tc_bw - Config VSI BW Allocation per TC
* @hw: pointer to the hw struct
* @seid: VSI seid
* @bw_data: Buffer holding enabled TCs, relative TC BW limit/credits
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_config_vsi_tc_bw(struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_configure_vsi_tc_bw_data *bw_data,
struct i40e_asq_cmd_details *cmd_details)
{
return i40e_aq_tx_sched_cmd(hw, seid, (void *)bw_data, sizeof(*bw_data),
i40e_aqc_opc_configure_vsi_tc_bw,
cmd_details);
}
/**
* i40e_aq_config_switch_comp_ets - Enable/Disable/Modify ETS on the port
* @hw: pointer to the hw struct
* @seid: seid of the switching component connected to Physical Port
* @ets_data: Buffer holding ETS parameters
* @opcode: Tx scheduler AQ command opcode
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_config_switch_comp_ets(struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_configure_switching_comp_ets_data *ets_data,
enum i40e_admin_queue_opc opcode,
struct i40e_asq_cmd_details *cmd_details)
{
return i40e_aq_tx_sched_cmd(hw, seid, (void *)ets_data,
sizeof(*ets_data), opcode, cmd_details);
}
/**
* i40e_aq_config_switch_comp_bw_config - Config Switch comp BW Alloc per TC
* @hw: pointer to the hw struct
* @seid: seid of the switching component
* @bw_data: Buffer holding enabled TCs, relative/absolute TC BW limit/credits
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_config_switch_comp_bw_config(struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_configure_switching_comp_bw_config_data *bw_data,
struct i40e_asq_cmd_details *cmd_details)
{
return i40e_aq_tx_sched_cmd(hw, seid, (void *)bw_data, sizeof(*bw_data),
i40e_aqc_opc_configure_switching_comp_bw_config,
cmd_details);
}
/**
* i40e_aq_config_switch_comp_ets_bw_limit - Config Switch comp BW Limit per TC
* @hw: pointer to the hw struct
* @seid: seid of the switching component
* @bw_data: Buffer holding enabled TCs, per TC BW limit/credits
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_config_switch_comp_ets_bw_limit(
struct i40e_hw *hw, u16 seid,
struct i40e_aqc_configure_switching_comp_ets_bw_limit_data *bw_data,
struct i40e_asq_cmd_details *cmd_details)
{
return i40e_aq_tx_sched_cmd(hw, seid, (void *)bw_data, sizeof(*bw_data),
i40e_aqc_opc_configure_switching_comp_ets_bw_limit,
cmd_details);
}
/**
* i40e_aq_query_vsi_bw_config - Query VSI BW configuration
* @hw: pointer to the hw struct
* @seid: seid of the VSI
* @bw_data: Buffer to hold VSI BW configuration
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_query_vsi_bw_config(struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_query_vsi_bw_config_resp *bw_data,
struct i40e_asq_cmd_details *cmd_details)
{
return i40e_aq_tx_sched_cmd(hw, seid, (void *)bw_data, sizeof(*bw_data),
i40e_aqc_opc_query_vsi_bw_config,
cmd_details);
}
/**
* i40e_aq_query_vsi_ets_sla_config - Query VSI BW configuration per TC
* @hw: pointer to the hw struct
* @seid: seid of the VSI
* @bw_data: Buffer to hold VSI BW configuration per TC
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_query_vsi_ets_sla_config(struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_query_vsi_ets_sla_config_resp *bw_data,
struct i40e_asq_cmd_details *cmd_details)
{
return i40e_aq_tx_sched_cmd(hw, seid, (void *)bw_data, sizeof(*bw_data),
i40e_aqc_opc_query_vsi_ets_sla_config,
cmd_details);
}
/**
* i40e_aq_query_switch_comp_ets_config - Query Switch comp BW config per TC
* @hw: pointer to the hw struct
* @seid: seid of the switching component
* @bw_data: Buffer to hold switching component's per TC BW config
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_query_switch_comp_ets_config(struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_query_switching_comp_ets_config_resp *bw_data,
struct i40e_asq_cmd_details *cmd_details)
{
return i40e_aq_tx_sched_cmd(hw, seid, (void *)bw_data, sizeof(*bw_data),
i40e_aqc_opc_query_switching_comp_ets_config,
cmd_details);
}
/**
* i40e_aq_query_port_ets_config - Query Physical Port ETS configuration
* @hw: pointer to the hw struct
* @seid: seid of the VSI or switching component connected to Physical Port
* @bw_data: Buffer to hold current ETS configuration for the Physical Port
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_query_port_ets_config(struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_query_port_ets_config_resp *bw_data,
struct i40e_asq_cmd_details *cmd_details)
{
return i40e_aq_tx_sched_cmd(hw, seid, (void *)bw_data, sizeof(*bw_data),
i40e_aqc_opc_query_port_ets_config,
cmd_details);
}
/**
* i40e_aq_query_switch_comp_bw_config - Query Switch comp BW configuration
* @hw: pointer to the hw struct
* @seid: seid of the switching component
* @bw_data: Buffer to hold switching component's BW configuration
* @cmd_details: pointer to command details structure or NULL
**/
enum i40e_status_code i40e_aq_query_switch_comp_bw_config(struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_query_switching_comp_bw_config_resp *bw_data,
struct i40e_asq_cmd_details *cmd_details)
{
return i40e_aq_tx_sched_cmd(hw, seid, (void *)bw_data, sizeof(*bw_data),
i40e_aqc_opc_query_switching_comp_bw_config,
cmd_details);
}
/**
* i40e_validate_filter_settings
* @hw: pointer to the hardware structure
* @settings: Filter control settings
*
* Check and validate the filter control settings passed.
* The function checks for the valid filter/context sizes being
* passed for FCoE and PE.
*
* Returns I40E_SUCCESS if the values passed are valid and within
* range else returns an error.
**/
STATIC enum i40e_status_code i40e_validate_filter_settings(struct i40e_hw *hw,
struct i40e_filter_control_settings *settings)
{
u32 fcoe_cntx_size, fcoe_filt_size;
u32 pe_cntx_size, pe_filt_size;
u32 fcoe_fmax;
u32 val;
/* Validate FCoE settings passed */
switch (settings->fcoe_filt_num) {
case I40E_HASH_FILTER_SIZE_1K:
case I40E_HASH_FILTER_SIZE_2K:
case I40E_HASH_FILTER_SIZE_4K:
case I40E_HASH_FILTER_SIZE_8K:
case I40E_HASH_FILTER_SIZE_16K:
case I40E_HASH_FILTER_SIZE_32K:
fcoe_filt_size = I40E_HASH_FILTER_BASE_SIZE;
fcoe_filt_size <<= (u32)settings->fcoe_filt_num;
break;
default:
return I40E_ERR_PARAM;
}
switch (settings->fcoe_cntx_num) {
case I40E_DMA_CNTX_SIZE_512:
case I40E_DMA_CNTX_SIZE_1K:
case I40E_DMA_CNTX_SIZE_2K:
case I40E_DMA_CNTX_SIZE_4K:
fcoe_cntx_size = I40E_DMA_CNTX_BASE_SIZE;
fcoe_cntx_size <<= (u32)settings->fcoe_cntx_num;
break;
default:
return I40E_ERR_PARAM;
}
/* Validate PE settings passed */
switch (settings->pe_filt_num) {
case I40E_HASH_FILTER_SIZE_1K:
case I40E_HASH_FILTER_SIZE_2K:
case I40E_HASH_FILTER_SIZE_4K:
case I40E_HASH_FILTER_SIZE_8K:
case I40E_HASH_FILTER_SIZE_16K:
case I40E_HASH_FILTER_SIZE_32K:
case I40E_HASH_FILTER_SIZE_64K:
case I40E_HASH_FILTER_SIZE_128K:
case I40E_HASH_FILTER_SIZE_256K:
case I40E_HASH_FILTER_SIZE_512K:
case I40E_HASH_FILTER_SIZE_1M:
pe_filt_size = I40E_HASH_FILTER_BASE_SIZE;
pe_filt_size <<= (u32)settings->pe_filt_num;
break;
default:
return I40E_ERR_PARAM;
}
switch (settings->pe_cntx_num) {
case I40E_DMA_CNTX_SIZE_512:
case I40E_DMA_CNTX_SIZE_1K:
case I40E_DMA_CNTX_SIZE_2K:
case I40E_DMA_CNTX_SIZE_4K:
case I40E_DMA_CNTX_SIZE_8K:
case I40E_DMA_CNTX_SIZE_16K:
case I40E_DMA_CNTX_SIZE_32K:
case I40E_DMA_CNTX_SIZE_64K:
case I40E_DMA_CNTX_SIZE_128K:
case I40E_DMA_CNTX_SIZE_256K:
pe_cntx_size = I40E_DMA_CNTX_BASE_SIZE;
pe_cntx_size <<= (u32)settings->pe_cntx_num;
break;
default:
return I40E_ERR_PARAM;
}
/* FCHSIZE + FCDSIZE should not be greater than PMFCOEFMAX */
val = rd32(hw, I40E_GLHMC_FCOEFMAX);
fcoe_fmax = (val & I40E_GLHMC_FCOEFMAX_PMFCOEFMAX_MASK)
>> I40E_GLHMC_FCOEFMAX_PMFCOEFMAX_SHIFT;
if (fcoe_filt_size + fcoe_cntx_size > fcoe_fmax)
return I40E_ERR_INVALID_SIZE;
return I40E_SUCCESS;
}
/**
* i40e_set_filter_control
* @hw: pointer to the hardware structure
* @settings: Filter control settings
*
* Set the Queue Filters for PE/FCoE and enable filters required
* for a single PF. It is expected that these settings are programmed
* at the driver initialization time.
**/
enum i40e_status_code i40e_set_filter_control(struct i40e_hw *hw,
struct i40e_filter_control_settings *settings)
{
enum i40e_status_code ret = I40E_SUCCESS;
u32 hash_lut_size = 0;
u32 val;
if (!settings)
return I40E_ERR_PARAM;
/* Validate the input settings */
ret = i40e_validate_filter_settings(hw, settings);
if (ret)
return ret;
/* Read the PF Queue Filter control register */
val = i40e_read_rx_ctl(hw, I40E_PFQF_CTL_0);
/* Program required PE hash buckets for the PF */
val &= ~I40E_PFQF_CTL_0_PEHSIZE_MASK;
val |= ((u32)settings->pe_filt_num << I40E_PFQF_CTL_0_PEHSIZE_SHIFT) &
I40E_PFQF_CTL_0_PEHSIZE_MASK;
/* Program required PE contexts for the PF */
val &= ~I40E_PFQF_CTL_0_PEDSIZE_MASK;
val |= ((u32)settings->pe_cntx_num << I40E_PFQF_CTL_0_PEDSIZE_SHIFT) &
I40E_PFQF_CTL_0_PEDSIZE_MASK;
/* Program required FCoE hash buckets for the PF */
val &= ~I40E_PFQF_CTL_0_PFFCHSIZE_MASK;
val |= ((u32)settings->fcoe_filt_num <<
I40E_PFQF_CTL_0_PFFCHSIZE_SHIFT) &
I40E_PFQF_CTL_0_PFFCHSIZE_MASK;
/* Program required FCoE DDP contexts for the PF */
val &= ~I40E_PFQF_CTL_0_PFFCDSIZE_MASK;
val |= ((u32)settings->fcoe_cntx_num <<
I40E_PFQF_CTL_0_PFFCDSIZE_SHIFT) &
I40E_PFQF_CTL_0_PFFCDSIZE_MASK;
/* Program Hash LUT size for the PF */
val &= ~I40E_PFQF_CTL_0_HASHLUTSIZE_MASK;
if (settings->hash_lut_size == I40E_HASH_LUT_SIZE_512)
hash_lut_size = 1;
val |= (hash_lut_size << I40E_PFQF_CTL_0_HASHLUTSIZE_SHIFT) &
I40E_PFQF_CTL_0_HASHLUTSIZE_MASK;
/* Enable FDIR, Ethertype and MACVLAN filters for PF and VFs */
if (settings->enable_fdir)
val |= I40E_PFQF_CTL_0_FD_ENA_MASK;
if (settings->enable_ethtype)
val |= I40E_PFQF_CTL_0_ETYPE_ENA_MASK;
if (settings->enable_macvlan)
val |= I40E_PFQF_CTL_0_MACVLAN_ENA_MASK;
i40e_write_rx_ctl(hw, I40E_PFQF_CTL_0, val);
return I40E_SUCCESS;
}
/**
* i40e_aq_add_rem_control_packet_filter - Add or Remove Control Packet Filter
* @hw: pointer to the hw struct
* @mac_addr: MAC address to use in the filter
* @ethtype: Ethertype to use in the filter
* @flags: Flags that needs to be applied to the filter
* @vsi_seid: seid of the control VSI
* @queue: VSI queue number to send the packet to
* @is_add: Add control packet filter if True else remove
* @stats: Structure to hold information on control filter counts
* @cmd_details: pointer to command details structure or NULL
*
* This command will Add or Remove control packet filter for a control VSI.
* In return it will update the total number of perfect filter count in
* the stats member.
**/
enum i40e_status_code i40e_aq_add_rem_control_packet_filter(struct i40e_hw *hw,
u8 *mac_addr, u16 ethtype, u16 flags,
u16 vsi_seid, u16 queue, bool is_add,
struct i40e_control_filter_stats *stats,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_remove_control_packet_filter *cmd =
(struct i40e_aqc_add_remove_control_packet_filter *)
&desc.params.raw;
struct i40e_aqc_add_remove_control_packet_filter_completion *resp =
(struct i40e_aqc_add_remove_control_packet_filter_completion *)
&desc.params.raw;
enum i40e_status_code status;
if (vsi_seid == 0)
return I40E_ERR_PARAM;
if (is_add) {
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_add_control_packet_filter);
cmd->queue = CPU_TO_LE16(queue);
} else {
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_remove_control_packet_filter);
}
if (mac_addr)
i40e_memcpy(cmd->mac, mac_addr, ETH_ALEN,
I40E_NONDMA_TO_NONDMA);
cmd->etype = CPU_TO_LE16(ethtype);
cmd->flags = CPU_TO_LE16(flags);
cmd->seid = CPU_TO_LE16(vsi_seid);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (!status && stats) {
stats->mac_etype_used = LE16_TO_CPU(resp->mac_etype_used);
stats->etype_used = LE16_TO_CPU(resp->etype_used);
stats->mac_etype_free = LE16_TO_CPU(resp->mac_etype_free);
stats->etype_free = LE16_TO_CPU(resp->etype_free);
}
return status;
}
/**
* i40e_add_filter_to_drop_tx_flow_control_frames- filter to drop flow control
* @hw: pointer to the hw struct
* @seid: VSI seid to add ethertype filter from
**/
void i40e_add_filter_to_drop_tx_flow_control_frames(struct i40e_hw *hw,
u16 seid)
{
#define I40E_FLOW_CONTROL_ETHTYPE 0x8808
u16 flag = I40E_AQC_ADD_CONTROL_PACKET_FLAGS_IGNORE_MAC |
I40E_AQC_ADD_CONTROL_PACKET_FLAGS_DROP |
I40E_AQC_ADD_CONTROL_PACKET_FLAGS_TX;
u16 ethtype = I40E_FLOW_CONTROL_ETHTYPE;
enum i40e_status_code status;
status = i40e_aq_add_rem_control_packet_filter(hw, NULL, ethtype, flag,
seid, 0, true, NULL,
NULL);
if (status)
DEBUGOUT("Ethtype Filter Add failed: Error pruning Tx flow control frames\n");
}
/**
* i40e_fix_up_geneve_vni - adjust Geneve VNI for HW issue
* @filters: list of cloud filters
* @filter_count: length of list
*
* There's an issue in the device where the Geneve VNI layout needs
* to be shifted 1 byte over from the VxLAN VNI
**/
STATIC void i40e_fix_up_geneve_vni(
struct i40e_aqc_add_remove_cloud_filters_element_data *filters,
u8 filter_count)
{
struct i40e_aqc_add_remove_cloud_filters_element_data *f = filters;
int i;
for (i = 0; i < filter_count; i++) {
u16 tnl_type;
u32 ti;
tnl_type = (LE16_TO_CPU(f[i].flags) &
I40E_AQC_ADD_CLOUD_TNL_TYPE_MASK) >>
I40E_AQC_ADD_CLOUD_TNL_TYPE_SHIFT;
if (tnl_type == I40E_AQC_ADD_CLOUD_TNL_TYPE_GENEVE) {
ti = LE32_TO_CPU(f[i].tenant_id);
f[i].tenant_id = CPU_TO_LE32(ti << 8);
}
}
}
/**
* i40e_aq_add_cloud_filters
* @hw: pointer to the hardware structure
* @seid: VSI seid to add cloud filters from
* @filters: Buffer which contains the filters to be added
* @filter_count: number of filters contained in the buffer
*
* Set the cloud filters for a given VSI. The contents of the
* i40e_aqc_add_remove_cloud_filters_element_data are filled
* in by the caller of the function.
*
**/
enum i40e_status_code i40e_aq_add_cloud_filters(struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_add_remove_cloud_filters_element_data *filters,
u8 filter_count)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_remove_cloud_filters *cmd =
(struct i40e_aqc_add_remove_cloud_filters *)&desc.params.raw;
enum i40e_status_code status;
u16 buff_len;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_add_cloud_filters);
buff_len = filter_count * sizeof(*filters);
desc.datalen = CPU_TO_LE16(buff_len);
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
cmd->num_filters = filter_count;
cmd->seid = CPU_TO_LE16(seid);
i40e_fix_up_geneve_vni(filters, filter_count);
status = i40e_asq_send_command(hw, &desc, filters, buff_len, NULL);
return status;
}
/**
* i40e_aq_add_cloud_filters_big_buffer
* @hw: pointer to the hardware structure
* @seid: VSI seid to add cloud filters from
* @filters: Buffer which contains the filters in big buffer to be added
* @filter_count: number of filters contained in the buffer
*
* Set the cloud filters for a given VSI. The contents of the
* i40e_aqc_add_rm_cloud_filt_elem_ext are filled in by the caller of
* the function.
*
**/
enum i40e_status_code i40e_aq_add_cloud_filters_big_buffer(struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_add_rm_cloud_filt_elem_ext *filters,
u8 filter_count)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_remove_cloud_filters *cmd =
(struct i40e_aqc_add_remove_cloud_filters *)&desc.params.raw;
enum i40e_status_code status;
u16 buff_len;
int i;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_add_cloud_filters);
buff_len = filter_count * sizeof(*filters);
desc.datalen = CPU_TO_LE16(buff_len);
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
cmd->num_filters = filter_count;
cmd->seid = CPU_TO_LE16(seid);
cmd->big_buffer_flag = I40E_AQC_ADD_REM_CLOUD_CMD_BIG_BUFFER;
/* adjust Geneve VNI for HW issue */
for (i = 0; i < filter_count; i++) {
u16 tnl_type;
u32 ti;
tnl_type = (LE16_TO_CPU(filters[i].element.flags) &
I40E_AQC_ADD_CLOUD_TNL_TYPE_MASK) >>
I40E_AQC_ADD_CLOUD_TNL_TYPE_SHIFT;
if (tnl_type == I40E_AQC_ADD_CLOUD_TNL_TYPE_GENEVE) {
ti = LE32_TO_CPU(filters[i].element.tenant_id);
filters[i].element.tenant_id = CPU_TO_LE32(ti << 8);
}
}
status = i40e_asq_send_command(hw, &desc, filters, buff_len, NULL);
return status;
}
/**
* i40e_aq_remove_cloud_filters
* @hw: pointer to the hardware structure
* @seid: VSI seid to remove cloud filters from
* @filters: Buffer which contains the filters to be removed
* @filter_count: number of filters contained in the buffer
*
* Remove the cloud filters for a given VSI. The contents of the
* i40e_aqc_add_remove_cloud_filters_element_data are filled
* in by the caller of the function.
*
**/
enum i40e_status_code i40e_aq_remove_cloud_filters(struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_add_remove_cloud_filters_element_data *filters,
u8 filter_count)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_remove_cloud_filters *cmd =
(struct i40e_aqc_add_remove_cloud_filters *)&desc.params.raw;
enum i40e_status_code status;
u16 buff_len;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_remove_cloud_filters);
buff_len = filter_count * sizeof(*filters);
desc.datalen = CPU_TO_LE16(buff_len);
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
cmd->num_filters = filter_count;
cmd->seid = CPU_TO_LE16(seid);
i40e_fix_up_geneve_vni(filters, filter_count);
status = i40e_asq_send_command(hw, &desc, filters, buff_len, NULL);
return status;
}
/**
* i40e_aq_remove_cloud_filters_big_buffer
* @hw: pointer to the hardware structure
* @seid: VSI seid to remove cloud filters from
* @filters: Buffer which contains the filters in big buffer to be removed
* @filter_count: number of filters contained in the buffer
*
* Remove the cloud filters for a given VSI. The contents of the
* i40e_aqc_add_rm_cloud_filt_elem_ext are filled in by the caller of
* the function.
*
**/
enum i40e_status_code i40e_aq_remove_cloud_filters_big_buffer(
struct i40e_hw *hw,
u16 seid,
struct i40e_aqc_add_rm_cloud_filt_elem_ext *filters,
u8 filter_count)
{
struct i40e_aq_desc desc;
struct i40e_aqc_add_remove_cloud_filters *cmd =
(struct i40e_aqc_add_remove_cloud_filters *)&desc.params.raw;
enum i40e_status_code status;
u16 buff_len;
int i;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_remove_cloud_filters);
buff_len = filter_count * sizeof(*filters);
desc.datalen = CPU_TO_LE16(buff_len);
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
cmd->num_filters = filter_count;
cmd->seid = CPU_TO_LE16(seid);
cmd->big_buffer_flag = I40E_AQC_ADD_REM_CLOUD_CMD_BIG_BUFFER;
/* adjust Geneve VNI for HW issue */
for (i = 0; i < filter_count; i++) {
u16 tnl_type;
u32 ti;
tnl_type = (LE16_TO_CPU(filters[i].element.flags) &
I40E_AQC_ADD_CLOUD_TNL_TYPE_MASK) >>
I40E_AQC_ADD_CLOUD_TNL_TYPE_SHIFT;
if (tnl_type == I40E_AQC_ADD_CLOUD_TNL_TYPE_GENEVE) {
ti = LE32_TO_CPU(filters[i].element.tenant_id);
filters[i].element.tenant_id = CPU_TO_LE32(ti << 8);
}
}
status = i40e_asq_send_command(hw, &desc, filters, buff_len, NULL);
return status;
}
/**
* i40e_aq_replace_cloud_filters - Replace cloud filter command
* @hw: pointer to the hw struct
* @filters: pointer to the i40e_aqc_replace_cloud_filter_cmd struct
* @cmd_buf: pointer to the i40e_aqc_replace_cloud_filter_cmd_buf struct
*
**/
enum
i40e_status_code i40e_aq_replace_cloud_filters(struct i40e_hw *hw,
struct i40e_aqc_replace_cloud_filters_cmd *filters,
struct i40e_aqc_replace_cloud_filters_cmd_buf *cmd_buf)
{
struct i40e_aq_desc desc;
struct i40e_aqc_replace_cloud_filters_cmd *cmd =
(struct i40e_aqc_replace_cloud_filters_cmd *)&desc.params.raw;
enum i40e_status_code status = I40E_SUCCESS;
int i = 0;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_replace_cloud_filters);
desc.datalen = CPU_TO_LE16(32);
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD));
cmd->old_filter_type = filters->old_filter_type;
cmd->new_filter_type = filters->new_filter_type;
cmd->valid_flags = filters->valid_flags;
cmd->tr_bit = filters->tr_bit;
status = i40e_asq_send_command(hw, &desc, cmd_buf,
sizeof(struct i40e_aqc_replace_cloud_filters_cmd_buf), NULL);
/* for get cloud filters command */
for (i = 0; i < 32; i += 4) {
cmd_buf->filters[i / 4].filter_type = cmd_buf->data[i];
cmd_buf->filters[i / 4].input[0] = cmd_buf->data[i + 1];
cmd_buf->filters[i / 4].input[1] = cmd_buf->data[i + 2];
cmd_buf->filters[i / 4].input[2] = cmd_buf->data[i + 3];
}
return status;
}
/**
* i40e_aq_alternate_write
* @hw: pointer to the hardware structure
* @reg_addr0: address of first dword to be read
* @reg_val0: value to be written under 'reg_addr0'
* @reg_addr1: address of second dword to be read
* @reg_val1: value to be written under 'reg_addr1'
*
* Write one or two dwords to alternate structure. Fields are indicated
* by 'reg_addr0' and 'reg_addr1' register numbers.
*
**/
enum i40e_status_code i40e_aq_alternate_write(struct i40e_hw *hw,
u32 reg_addr0, u32 reg_val0,
u32 reg_addr1, u32 reg_val1)
{
struct i40e_aq_desc desc;
struct i40e_aqc_alternate_write *cmd_resp =
(struct i40e_aqc_alternate_write *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_alternate_write);
cmd_resp->address0 = CPU_TO_LE32(reg_addr0);
cmd_resp->address1 = CPU_TO_LE32(reg_addr1);
cmd_resp->data0 = CPU_TO_LE32(reg_val0);
cmd_resp->data1 = CPU_TO_LE32(reg_val1);
status = i40e_asq_send_command(hw, &desc, NULL, 0, NULL);
return status;
}
/**
* i40e_aq_alternate_write_indirect
* @hw: pointer to the hardware structure
* @addr: address of a first register to be modified
* @dw_count: number of alternate structure fields to write
* @buffer: pointer to the command buffer
*
* Write 'dw_count' dwords from 'buffer' to alternate structure
* starting at 'addr'.
*
**/
enum i40e_status_code i40e_aq_alternate_write_indirect(struct i40e_hw *hw,
u32 addr, u32 dw_count, void *buffer)
{
struct i40e_aq_desc desc;
struct i40e_aqc_alternate_ind_write *cmd_resp =
(struct i40e_aqc_alternate_ind_write *)&desc.params.raw;
enum i40e_status_code status;
if (buffer == NULL)
return I40E_ERR_PARAM;
/* Indirect command */
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_alternate_write_indirect);
desc.flags |= CPU_TO_LE16(I40E_AQ_FLAG_RD);
desc.flags |= CPU_TO_LE16(I40E_AQ_FLAG_BUF);
if (dw_count > (I40E_AQ_LARGE_BUF/4))
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
cmd_resp->address = CPU_TO_LE32(addr);
cmd_resp->length = CPU_TO_LE32(dw_count);
status = i40e_asq_send_command(hw, &desc, buffer,
I40E_LO_DWORD(4*dw_count), NULL);
return status;
}
/**
* i40e_aq_alternate_read
* @hw: pointer to the hardware structure
* @reg_addr0: address of first dword to be read
* @reg_val0: pointer for data read from 'reg_addr0'
* @reg_addr1: address of second dword to be read
* @reg_val1: pointer for data read from 'reg_addr1'
*
* Read one or two dwords from alternate structure. Fields are indicated
* by 'reg_addr0' and 'reg_addr1' register numbers. If 'reg_val1' pointer
* is not passed then only register at 'reg_addr0' is read.
*
**/
enum i40e_status_code i40e_aq_alternate_read(struct i40e_hw *hw,
u32 reg_addr0, u32 *reg_val0,
u32 reg_addr1, u32 *reg_val1)
{
struct i40e_aq_desc desc;
struct i40e_aqc_alternate_write *cmd_resp =
(struct i40e_aqc_alternate_write *)&desc.params.raw;
enum i40e_status_code status;
if (reg_val0 == NULL)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_alternate_read);
cmd_resp->address0 = CPU_TO_LE32(reg_addr0);
cmd_resp->address1 = CPU_TO_LE32(reg_addr1);
status = i40e_asq_send_command(hw, &desc, NULL, 0, NULL);
if (status == I40E_SUCCESS) {
*reg_val0 = LE32_TO_CPU(cmd_resp->data0);
if (reg_val1 != NULL)
*reg_val1 = LE32_TO_CPU(cmd_resp->data1);
}
return status;
}
/**
* i40e_aq_alternate_read_indirect
* @hw: pointer to the hardware structure
* @addr: address of the alternate structure field
* @dw_count: number of alternate structure fields to read
* @buffer: pointer to the command buffer
*
* Read 'dw_count' dwords from alternate structure starting at 'addr' and
* place them in 'buffer'. The buffer should be allocated by caller.
*
**/
enum i40e_status_code i40e_aq_alternate_read_indirect(struct i40e_hw *hw,
u32 addr, u32 dw_count, void *buffer)
{
struct i40e_aq_desc desc;
struct i40e_aqc_alternate_ind_write *cmd_resp =
(struct i40e_aqc_alternate_ind_write *)&desc.params.raw;
enum i40e_status_code status;
if (buffer == NULL)
return I40E_ERR_PARAM;
/* Indirect command */
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_alternate_read_indirect);
desc.flags |= CPU_TO_LE16(I40E_AQ_FLAG_RD);
desc.flags |= CPU_TO_LE16(I40E_AQ_FLAG_BUF);
if (dw_count > (I40E_AQ_LARGE_BUF/4))
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
cmd_resp->address = CPU_TO_LE32(addr);
cmd_resp->length = CPU_TO_LE32(dw_count);
status = i40e_asq_send_command(hw, &desc, buffer,
I40E_LO_DWORD(4*dw_count), NULL);
return status;
}
/**
* i40e_aq_alternate_clear
* @hw: pointer to the HW structure.
*
* Clear the alternate structures of the port from which the function
* is called.
*
**/
enum i40e_status_code i40e_aq_alternate_clear(struct i40e_hw *hw)
{
struct i40e_aq_desc desc;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_alternate_clear_port);
status = i40e_asq_send_command(hw, &desc, NULL, 0, NULL);
return status;
}
/**
* i40e_aq_alternate_write_done
* @hw: pointer to the HW structure.
* @bios_mode: indicates whether the command is executed by UEFI or legacy BIOS
* @reset_needed: indicates the SW should trigger GLOBAL reset
*
* Indicates to the FW that alternate structures have been changed.
*
**/
enum i40e_status_code i40e_aq_alternate_write_done(struct i40e_hw *hw,
u8 bios_mode, bool *reset_needed)
{
struct i40e_aq_desc desc;
struct i40e_aqc_alternate_write_done *cmd =
(struct i40e_aqc_alternate_write_done *)&desc.params.raw;
enum i40e_status_code status;
if (reset_needed == NULL)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_alternate_write_done);
cmd->cmd_flags = CPU_TO_LE16(bios_mode);
status = i40e_asq_send_command(hw, &desc, NULL, 0, NULL);
if (!status && reset_needed)
*reset_needed = ((LE16_TO_CPU(cmd->cmd_flags) &
I40E_AQ_ALTERNATE_RESET_NEEDED) != 0);
return status;
}
/**
* i40e_aq_set_oem_mode
* @hw: pointer to the HW structure.
* @oem_mode: the OEM mode to be used
*
* Sets the device to a specific operating mode. Currently the only supported
* mode is no_clp, which causes FW to refrain from using Alternate RAM.
*
**/
enum i40e_status_code i40e_aq_set_oem_mode(struct i40e_hw *hw,
u8 oem_mode)
{
struct i40e_aq_desc desc;
struct i40e_aqc_alternate_write_done *cmd =
(struct i40e_aqc_alternate_write_done *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_alternate_set_mode);
cmd->cmd_flags = CPU_TO_LE16(oem_mode);
status = i40e_asq_send_command(hw, &desc, NULL, 0, NULL);
return status;
}
/**
* i40e_aq_resume_port_tx
* @hw: pointer to the hardware structure
* @cmd_details: pointer to command details structure or NULL
*
* Resume port's Tx traffic
**/
enum i40e_status_code i40e_aq_resume_port_tx(struct i40e_hw *hw,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_resume_port_tx);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_set_pci_config_data - store PCI bus info
* @hw: pointer to hardware structure
* @link_status: the link status word from PCI config space
*
* Stores the PCI bus info (speed, width, type) within the i40e_hw structure
**/
void i40e_set_pci_config_data(struct i40e_hw *hw, u16 link_status)
{
hw->bus.type = i40e_bus_type_pci_express;
switch (link_status & I40E_PCI_LINK_WIDTH) {
case I40E_PCI_LINK_WIDTH_1:
hw->bus.width = i40e_bus_width_pcie_x1;
break;
case I40E_PCI_LINK_WIDTH_2:
hw->bus.width = i40e_bus_width_pcie_x2;
break;
case I40E_PCI_LINK_WIDTH_4:
hw->bus.width = i40e_bus_width_pcie_x4;
break;
case I40E_PCI_LINK_WIDTH_8:
hw->bus.width = i40e_bus_width_pcie_x8;
break;
default:
hw->bus.width = i40e_bus_width_unknown;
break;
}
switch (link_status & I40E_PCI_LINK_SPEED) {
case I40E_PCI_LINK_SPEED_2500:
hw->bus.speed = i40e_bus_speed_2500;
break;
case I40E_PCI_LINK_SPEED_5000:
hw->bus.speed = i40e_bus_speed_5000;
break;
case I40E_PCI_LINK_SPEED_8000:
hw->bus.speed = i40e_bus_speed_8000;
break;
default:
hw->bus.speed = i40e_bus_speed_unknown;
break;
}
}
/**
* i40e_aq_debug_dump
* @hw: pointer to the hardware structure
* @cluster_id: specific cluster to dump
* @table_id: table id within cluster
* @start_index: index of line in the block to read
* @buff_size: dump buffer size
* @buff: dump buffer
* @ret_buff_size: actual buffer size returned
* @ret_next_table: next block to read
* @ret_next_index: next index to read
* @cmd_details: pointer to command details structure or NULL
*
* Dump internal FW/HW data for debug purposes.
*
**/
enum i40e_status_code i40e_aq_debug_dump(struct i40e_hw *hw, u8 cluster_id,
u8 table_id, u32 start_index, u16 buff_size,
void *buff, u16 *ret_buff_size,
u8 *ret_next_table, u32 *ret_next_index,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_debug_dump_internals *cmd =
(struct i40e_aqc_debug_dump_internals *)&desc.params.raw;
struct i40e_aqc_debug_dump_internals *resp =
(struct i40e_aqc_debug_dump_internals *)&desc.params.raw;
enum i40e_status_code status;
if (buff_size == 0 || !buff)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_debug_dump_internals);
/* Indirect Command */
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
if (buff_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
cmd->cluster_id = cluster_id;
cmd->table_id = table_id;
cmd->idx = CPU_TO_LE32(start_index);
desc.datalen = CPU_TO_LE16(buff_size);
status = i40e_asq_send_command(hw, &desc, buff, buff_size, cmd_details);
if (!status) {
if (ret_buff_size != NULL)
*ret_buff_size = LE16_TO_CPU(desc.datalen);
if (ret_next_table != NULL)
*ret_next_table = resp->table_id;
if (ret_next_index != NULL)
*ret_next_index = LE32_TO_CPU(resp->idx);
}
return status;
}
/**
* i40e_read_bw_from_alt_ram
* @hw: pointer to the hardware structure
* @max_bw: pointer for max_bw read
* @min_bw: pointer for min_bw read
* @min_valid: pointer for bool that is true if min_bw is a valid value
* @max_valid: pointer for bool that is true if max_bw is a valid value
*
* Read bw from the alternate ram for the given pf
**/
enum i40e_status_code i40e_read_bw_from_alt_ram(struct i40e_hw *hw,
u32 *max_bw, u32 *min_bw,
bool *min_valid, bool *max_valid)
{
enum i40e_status_code status;
u32 max_bw_addr, min_bw_addr;
/* Calculate the address of the min/max bw registers */
max_bw_addr = I40E_ALT_STRUCT_FIRST_PF_OFFSET +
I40E_ALT_STRUCT_MAX_BW_OFFSET +
(I40E_ALT_STRUCT_DWORDS_PER_PF * hw->pf_id);
min_bw_addr = I40E_ALT_STRUCT_FIRST_PF_OFFSET +
I40E_ALT_STRUCT_MIN_BW_OFFSET +
(I40E_ALT_STRUCT_DWORDS_PER_PF * hw->pf_id);
/* Read the bandwidths from alt ram */
status = i40e_aq_alternate_read(hw, max_bw_addr, max_bw,
min_bw_addr, min_bw);
if (*min_bw & I40E_ALT_BW_VALID_MASK)
*min_valid = true;
else
*min_valid = false;
if (*max_bw & I40E_ALT_BW_VALID_MASK)
*max_valid = true;
else
*max_valid = false;
return status;
}
/**
* i40e_aq_configure_partition_bw
* @hw: pointer to the hardware structure
* @bw_data: Buffer holding valid pfs and bw limits
* @cmd_details: pointer to command details
*
* Configure partitions guaranteed/max bw
**/
enum i40e_status_code i40e_aq_configure_partition_bw(struct i40e_hw *hw,
struct i40e_aqc_configure_partition_bw_data *bw_data,
struct i40e_asq_cmd_details *cmd_details)
{
enum i40e_status_code status;
struct i40e_aq_desc desc;
u16 bwd_size = sizeof(*bw_data);
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_configure_partition_bw);
/* Indirect command */
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_RD);
desc.datalen = CPU_TO_LE16(bwd_size);
status = i40e_asq_send_command(hw, &desc, bw_data, bwd_size, cmd_details);
return status;
}
/**
* i40e_read_phy_register_clause22
* @hw: pointer to the HW structure
* @reg: register address in the page
* @phy_addr: PHY address on MDIO interface
* @value: PHY register value
*
* Reads specified PHY register value
**/
enum i40e_status_code i40e_read_phy_register_clause22(struct i40e_hw *hw,
u16 reg, u8 phy_addr, u16 *value)
{
enum i40e_status_code status = I40E_ERR_TIMEOUT;
u8 port_num = (u8)hw->func_caps.mdio_port_num;
u32 command = 0;
u16 retry = 1000;
command = (reg << I40E_GLGEN_MSCA_DEVADD_SHIFT) |
(phy_addr << I40E_GLGEN_MSCA_PHYADD_SHIFT) |
(I40E_MDIO_CLAUSE22_OPCODE_READ_MASK) |
(I40E_MDIO_CLAUSE22_STCODE_MASK) |
(I40E_GLGEN_MSCA_MDICMD_MASK);
wr32(hw, I40E_GLGEN_MSCA(port_num), command);
do {
command = rd32(hw, I40E_GLGEN_MSCA(port_num));
if (!(command & I40E_GLGEN_MSCA_MDICMD_MASK)) {
status = I40E_SUCCESS;
break;
}
i40e_usec_delay(10);
retry--;
} while (retry);
if (status) {
i40e_debug(hw, I40E_DEBUG_PHY,
"PHY: Can't write command to external PHY.\n");
} else {
command = rd32(hw, I40E_GLGEN_MSRWD(port_num));
*value = (command & I40E_GLGEN_MSRWD_MDIRDDATA_MASK) >>
I40E_GLGEN_MSRWD_MDIRDDATA_SHIFT;
}
return status;
}
/**
* i40e_write_phy_register_clause22
* @hw: pointer to the HW structure
* @reg: register address in the page
* @phy_addr: PHY address on MDIO interface
* @value: PHY register value
*
* Writes specified PHY register value
**/
enum i40e_status_code i40e_write_phy_register_clause22(struct i40e_hw *hw,
u16 reg, u8 phy_addr, u16 value)
{
enum i40e_status_code status = I40E_ERR_TIMEOUT;
u8 port_num = (u8)hw->func_caps.mdio_port_num;
u32 command = 0;
u16 retry = 1000;
command = value << I40E_GLGEN_MSRWD_MDIWRDATA_SHIFT;
wr32(hw, I40E_GLGEN_MSRWD(port_num), command);
command = (reg << I40E_GLGEN_MSCA_DEVADD_SHIFT) |
(phy_addr << I40E_GLGEN_MSCA_PHYADD_SHIFT) |
(I40E_MDIO_CLAUSE22_OPCODE_WRITE_MASK) |
(I40E_MDIO_CLAUSE22_STCODE_MASK) |
(I40E_GLGEN_MSCA_MDICMD_MASK);
wr32(hw, I40E_GLGEN_MSCA(port_num), command);
do {
command = rd32(hw, I40E_GLGEN_MSCA(port_num));
if (!(command & I40E_GLGEN_MSCA_MDICMD_MASK)) {
status = I40E_SUCCESS;
break;
}
i40e_usec_delay(10);
retry--;
} while (retry);
return status;
}
/**
* i40e_read_phy_register_clause45
* @hw: pointer to the HW structure
* @page: registers page number
* @reg: register address in the page
* @phy_addr: PHY address on MDIO interface
* @value: PHY register value
*
* Reads specified PHY register value
**/
enum i40e_status_code i40e_read_phy_register_clause45(struct i40e_hw *hw,
u8 page, u16 reg, u8 phy_addr, u16 *value)
{
enum i40e_status_code status = I40E_ERR_TIMEOUT;
u32 command = 0;
u16 retry = 1000;
u8 port_num = (u8)hw->func_caps.mdio_port_num;
command = (reg << I40E_GLGEN_MSCA_MDIADD_SHIFT) |
(page << I40E_GLGEN_MSCA_DEVADD_SHIFT) |
(phy_addr << I40E_GLGEN_MSCA_PHYADD_SHIFT) |
(I40E_MDIO_CLAUSE45_OPCODE_ADDRESS_MASK) |
(I40E_MDIO_CLAUSE45_STCODE_MASK) |
(I40E_GLGEN_MSCA_MDICMD_MASK) |
(I40E_GLGEN_MSCA_MDIINPROGEN_MASK);
wr32(hw, I40E_GLGEN_MSCA(port_num), command);
do {
command = rd32(hw, I40E_GLGEN_MSCA(port_num));
if (!(command & I40E_GLGEN_MSCA_MDICMD_MASK)) {
status = I40E_SUCCESS;
break;
}
i40e_usec_delay(10);
retry--;
} while (retry);
if (status) {
i40e_debug(hw, I40E_DEBUG_PHY,
"PHY: Can't write command to external PHY.\n");
goto phy_read_end;
}
command = (page << I40E_GLGEN_MSCA_DEVADD_SHIFT) |
(phy_addr << I40E_GLGEN_MSCA_PHYADD_SHIFT) |
(I40E_MDIO_CLAUSE45_OPCODE_READ_MASK) |
(I40E_MDIO_CLAUSE45_STCODE_MASK) |
(I40E_GLGEN_MSCA_MDICMD_MASK) |
(I40E_GLGEN_MSCA_MDIINPROGEN_MASK);
status = I40E_ERR_TIMEOUT;
retry = 1000;
wr32(hw, I40E_GLGEN_MSCA(port_num), command);
do {
command = rd32(hw, I40E_GLGEN_MSCA(port_num));
if (!(command & I40E_GLGEN_MSCA_MDICMD_MASK)) {
status = I40E_SUCCESS;
break;
}
i40e_usec_delay(10);
retry--;
} while (retry);
if (!status) {
command = rd32(hw, I40E_GLGEN_MSRWD(port_num));
*value = (command & I40E_GLGEN_MSRWD_MDIRDDATA_MASK) >>
I40E_GLGEN_MSRWD_MDIRDDATA_SHIFT;
} else {
i40e_debug(hw, I40E_DEBUG_PHY,
"PHY: Can't read register value from external PHY.\n");
}
phy_read_end:
return status;
}
/**
* i40e_write_phy_register_clause45
* @hw: pointer to the HW structure
* @page: registers page number
* @reg: register address in the page
* @phy_addr: PHY address on MDIO interface
* @value: PHY register value
*
* Writes value to specified PHY register
**/
enum i40e_status_code i40e_write_phy_register_clause45(struct i40e_hw *hw,
u8 page, u16 reg, u8 phy_addr, u16 value)
{
enum i40e_status_code status = I40E_ERR_TIMEOUT;
u32 command = 0;
u16 retry = 1000;
u8 port_num = (u8)hw->func_caps.mdio_port_num;
command = (reg << I40E_GLGEN_MSCA_MDIADD_SHIFT) |
(page << I40E_GLGEN_MSCA_DEVADD_SHIFT) |
(phy_addr << I40E_GLGEN_MSCA_PHYADD_SHIFT) |
(I40E_MDIO_CLAUSE45_OPCODE_ADDRESS_MASK) |
(I40E_MDIO_CLAUSE45_STCODE_MASK) |
(I40E_GLGEN_MSCA_MDICMD_MASK) |
(I40E_GLGEN_MSCA_MDIINPROGEN_MASK);
wr32(hw, I40E_GLGEN_MSCA(port_num), command);
do {
command = rd32(hw, I40E_GLGEN_MSCA(port_num));
if (!(command & I40E_GLGEN_MSCA_MDICMD_MASK)) {
status = I40E_SUCCESS;
break;
}
i40e_usec_delay(10);
retry--;
} while (retry);
if (status) {
i40e_debug(hw, I40E_DEBUG_PHY,
"PHY: Can't write command to external PHY.\n");
goto phy_write_end;
}
command = value << I40E_GLGEN_MSRWD_MDIWRDATA_SHIFT;
wr32(hw, I40E_GLGEN_MSRWD(port_num), command);
command = (page << I40E_GLGEN_MSCA_DEVADD_SHIFT) |
(phy_addr << I40E_GLGEN_MSCA_PHYADD_SHIFT) |
(I40E_MDIO_CLAUSE45_OPCODE_WRITE_MASK) |
(I40E_MDIO_CLAUSE45_STCODE_MASK) |
(I40E_GLGEN_MSCA_MDICMD_MASK) |
(I40E_GLGEN_MSCA_MDIINPROGEN_MASK);
status = I40E_ERR_TIMEOUT;
retry = 1000;
wr32(hw, I40E_GLGEN_MSCA(port_num), command);
do {
command = rd32(hw, I40E_GLGEN_MSCA(port_num));
if (!(command & I40E_GLGEN_MSCA_MDICMD_MASK)) {
status = I40E_SUCCESS;
break;
}
i40e_usec_delay(10);
retry--;
} while (retry);
phy_write_end:
return status;
}
/**
* i40e_write_phy_register
* @hw: pointer to the HW structure
* @page: registers page number
* @reg: register address in the page
* @phy_addr: PHY address on MDIO interface
* @value: PHY register value
*
* Writes value to specified PHY register
**/
enum i40e_status_code i40e_write_phy_register(struct i40e_hw *hw,
u8 page, u16 reg, u8 phy_addr, u16 value)
{
enum i40e_status_code status;
switch (hw->device_id) {
case I40E_DEV_ID_1G_BASE_T_X722:
status = i40e_write_phy_register_clause22(hw,
reg, phy_addr, value);
break;
case I40E_DEV_ID_10G_BASE_T:
case I40E_DEV_ID_10G_BASE_T4:
case I40E_DEV_ID_10G_BASE_T_X722:
case I40E_DEV_ID_25G_B:
case I40E_DEV_ID_25G_SFP28:
status = i40e_write_phy_register_clause45(hw,
page, reg, phy_addr, value);
break;
default:
status = I40E_ERR_UNKNOWN_PHY;
break;
}
return status;
}
/**
* i40e_read_phy_register
* @hw: pointer to the HW structure
* @page: registers page number
* @reg: register address in the page
* @phy_addr: PHY address on MDIO interface
* @value: PHY register value
*
* Reads specified PHY register value
**/
enum i40e_status_code i40e_read_phy_register(struct i40e_hw *hw,
u8 page, u16 reg, u8 phy_addr, u16 *value)
{
enum i40e_status_code status;
switch (hw->device_id) {
case I40E_DEV_ID_1G_BASE_T_X722:
status = i40e_read_phy_register_clause22(hw, reg, phy_addr,
value);
break;
case I40E_DEV_ID_10G_BASE_T:
case I40E_DEV_ID_10G_BASE_T4:
case I40E_DEV_ID_10G_BASE_T_X722:
case I40E_DEV_ID_25G_B:
case I40E_DEV_ID_25G_SFP28:
status = i40e_read_phy_register_clause45(hw, page, reg,
phy_addr, value);
break;
default:
status = I40E_ERR_UNKNOWN_PHY;
break;
}
return status;
}
/**
* i40e_get_phy_address
* @hw: pointer to the HW structure
* @dev_num: PHY port num that address we want
*
* Gets PHY address for current port
**/
u8 i40e_get_phy_address(struct i40e_hw *hw, u8 dev_num)
{
u8 port_num = (u8)hw->func_caps.mdio_port_num;
u32 reg_val = rd32(hw, I40E_GLGEN_MDIO_I2C_SEL(port_num));
return (u8)(reg_val >> ((dev_num + 1) * 5)) & 0x1f;
}
/**
* i40e_blink_phy_led
* @hw: pointer to the HW structure
* @time: time how long led will blinks in secs
* @interval: gap between LED on and off in msecs
*
* Blinks PHY link LED
**/
enum i40e_status_code i40e_blink_phy_link_led(struct i40e_hw *hw,
u32 time, u32 interval)
{
enum i40e_status_code status = I40E_SUCCESS;
u32 i;
u16 led_ctl = 0;
u16 gpio_led_port;
u16 led_reg;
u16 led_addr = I40E_PHY_LED_PROV_REG_1;
u8 phy_addr = 0;
u8 port_num;
i = rd32(hw, I40E_PFGEN_PORTNUM);
port_num = (u8)(i & I40E_PFGEN_PORTNUM_PORT_NUM_MASK);
phy_addr = i40e_get_phy_address(hw, port_num);
for (gpio_led_port = 0; gpio_led_port < 3; gpio_led_port++,
led_addr++) {
status = i40e_read_phy_register_clause45(hw,
I40E_PHY_COM_REG_PAGE,
led_addr, phy_addr,
&led_reg);
if (status)
goto phy_blinking_end;
led_ctl = led_reg;
if (led_reg & I40E_PHY_LED_LINK_MODE_MASK) {
led_reg = 0;
status = i40e_write_phy_register_clause45(hw,
I40E_PHY_COM_REG_PAGE,
led_addr, phy_addr,
led_reg);
if (status)
goto phy_blinking_end;
break;
}
}
if (time > 0 && interval > 0) {
for (i = 0; i < time * 1000; i += interval) {
status = i40e_read_phy_register_clause45(hw,
I40E_PHY_COM_REG_PAGE,
led_addr, phy_addr, &led_reg);
if (status)
goto restore_config;
if (led_reg & I40E_PHY_LED_MANUAL_ON)
led_reg = 0;
else
led_reg = I40E_PHY_LED_MANUAL_ON;
status = i40e_write_phy_register_clause45(hw,
I40E_PHY_COM_REG_PAGE,
led_addr, phy_addr, led_reg);
if (status)
goto restore_config;
i40e_msec_delay(interval);
}
}
restore_config:
status = i40e_write_phy_register_clause45(hw,
I40E_PHY_COM_REG_PAGE,
led_addr, phy_addr, led_ctl);
phy_blinking_end:
return status;
}
/**
* i40e_led_get_reg - read LED register
* @hw: pointer to the HW structure
* @led_addr: LED register address
* @reg_val: read register value
**/
static enum i40e_status_code i40e_led_get_reg(struct i40e_hw *hw, u16 led_addr,
u32 *reg_val)
{
enum i40e_status_code status;
u8 phy_addr = 0;
*reg_val = 0;
if (hw->flags & I40E_HW_FLAG_AQ_PHY_ACCESS_CAPABLE) {
status = i40e_aq_get_phy_register(hw,
I40E_AQ_PHY_REG_ACCESS_EXTERNAL,
I40E_PHY_COM_REG_PAGE,
I40E_PHY_LED_PROV_REG_1,
reg_val, NULL);
} else {
phy_addr = i40e_get_phy_address(hw, hw->port);
status = i40e_read_phy_register_clause45(hw,
I40E_PHY_COM_REG_PAGE,
led_addr, phy_addr,
(u16 *)reg_val);
}
return status;
}
/**
* i40e_led_set_reg - write LED register
* @hw: pointer to the HW structure
* @led_addr: LED register address
* @reg_val: register value to write
**/
static enum i40e_status_code i40e_led_set_reg(struct i40e_hw *hw, u16 led_addr,
u32 reg_val)
{
enum i40e_status_code status;
u8 phy_addr = 0;
if (hw->flags & I40E_HW_FLAG_AQ_PHY_ACCESS_CAPABLE) {
status = i40e_aq_set_phy_register(hw,
I40E_AQ_PHY_REG_ACCESS_EXTERNAL,
I40E_PHY_COM_REG_PAGE,
I40E_PHY_LED_PROV_REG_1,
reg_val, NULL);
} else {
phy_addr = i40e_get_phy_address(hw, hw->port);
status = i40e_write_phy_register_clause45(hw,
I40E_PHY_COM_REG_PAGE,
led_addr, phy_addr,
(u16)reg_val);
}
return status;
}
/**
* i40e_led_get_phy - return current on/off mode
* @hw: pointer to the hw struct
* @led_addr: address of led register to use
* @val: original value of register to use
*
**/
enum i40e_status_code i40e_led_get_phy(struct i40e_hw *hw, u16 *led_addr,
u16 *val)
{
enum i40e_status_code status = I40E_SUCCESS;
u16 gpio_led_port;
u32 reg_val_aq;
u16 temp_addr;
u8 phy_addr = 0;
u16 reg_val;
if (hw->flags & I40E_HW_FLAG_AQ_PHY_ACCESS_CAPABLE) {
status = i40e_aq_get_phy_register(hw,
I40E_AQ_PHY_REG_ACCESS_EXTERNAL,
I40E_PHY_COM_REG_PAGE,
I40E_PHY_LED_PROV_REG_1,
®_val_aq, NULL);
if (status == I40E_SUCCESS)
*val = (u16)reg_val_aq;
return status;
}
temp_addr = I40E_PHY_LED_PROV_REG_1;
phy_addr = i40e_get_phy_address(hw, hw->port);
for (gpio_led_port = 0; gpio_led_port < 3; gpio_led_port++,
temp_addr++) {
status = i40e_read_phy_register_clause45(hw,
I40E_PHY_COM_REG_PAGE,
temp_addr, phy_addr,
®_val);
if (status)
return status;
*val = reg_val;
if (reg_val & I40E_PHY_LED_LINK_MODE_MASK) {
*led_addr = temp_addr;
break;
}
}
return status;
}
/**
* i40e_led_set_phy
* @hw: pointer to the HW structure
* @on: true or false
* @led_addr: address of led register to use
* @mode: original val plus bit for set or ignore
*
* Set led's on or off when controlled by the PHY
*
**/
enum i40e_status_code i40e_led_set_phy(struct i40e_hw *hw, bool on,
u16 led_addr, u32 mode)
{
enum i40e_status_code status = I40E_SUCCESS;
u32 led_ctl = 0;
u32 led_reg = 0;
status = i40e_led_get_reg(hw, led_addr, &led_reg);
if (status)
return status;
led_ctl = led_reg;
if (led_reg & I40E_PHY_LED_LINK_MODE_MASK) {
led_reg = 0;
status = i40e_led_set_reg(hw, led_addr, led_reg);
if (status)
return status;
}
status = i40e_led_get_reg(hw, led_addr, &led_reg);
if (status)
goto restore_config;
if (on)
led_reg = I40E_PHY_LED_MANUAL_ON;
else
led_reg = 0;
status = i40e_led_set_reg(hw, led_addr, led_reg);
if (status)
goto restore_config;
if (mode & I40E_PHY_LED_MODE_ORIG) {
led_ctl = (mode & I40E_PHY_LED_MODE_MASK);
status = i40e_led_set_reg(hw, led_addr, led_ctl);
}
return status;
restore_config:
status = i40e_led_set_reg(hw, led_addr, led_ctl);
return status;
}
#endif /* PF_DRIVER */
/**
* i40e_aq_rx_ctl_read_register - use FW to read from an Rx control register
* @hw: pointer to the hw struct
* @reg_addr: register address
* @reg_val: ptr to register value
* @cmd_details: pointer to command details structure or NULL
*
* Use the firmware to read the Rx control register,
* especially useful if the Rx unit is under heavy pressure
**/
enum i40e_status_code i40e_aq_rx_ctl_read_register(struct i40e_hw *hw,
u32 reg_addr, u32 *reg_val,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_rx_ctl_reg_read_write *cmd_resp =
(struct i40e_aqc_rx_ctl_reg_read_write *)&desc.params.raw;
enum i40e_status_code status;
if (reg_val == NULL)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_rx_ctl_reg_read);
cmd_resp->address = CPU_TO_LE32(reg_addr);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (status == I40E_SUCCESS)
*reg_val = LE32_TO_CPU(cmd_resp->value);
return status;
}
/**
* i40e_read_rx_ctl - read from an Rx control register
* @hw: pointer to the hw struct
* @reg_addr: register address
**/
u32 i40e_read_rx_ctl(struct i40e_hw *hw, u32 reg_addr)
{
enum i40e_status_code status = I40E_SUCCESS;
bool use_register;
int retry = 5;
u32 val = 0;
use_register = (((hw->aq.api_maj_ver == 1) &&
(hw->aq.api_min_ver < 5)) ||
(hw->mac.type == I40E_MAC_X722));
if (!use_register) {
do_retry:
status = i40e_aq_rx_ctl_read_register(hw, reg_addr, &val, NULL);
if (hw->aq.asq_last_status == I40E_AQ_RC_EAGAIN && retry) {
i40e_msec_delay(1);
retry--;
goto do_retry;
}
}
/* if the AQ access failed, try the old-fashioned way */
if (status || use_register)
val = rd32(hw, reg_addr);
return val;
}
/**
* i40e_aq_rx_ctl_write_register
* @hw: pointer to the hw struct
* @reg_addr: register address
* @reg_val: register value
* @cmd_details: pointer to command details structure or NULL
*
* Use the firmware to write to an Rx control register,
* especially useful if the Rx unit is under heavy pressure
**/
enum i40e_status_code i40e_aq_rx_ctl_write_register(struct i40e_hw *hw,
u32 reg_addr, u32 reg_val,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_rx_ctl_reg_read_write *cmd =
(struct i40e_aqc_rx_ctl_reg_read_write *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_rx_ctl_reg_write);
cmd->address = CPU_TO_LE32(reg_addr);
cmd->value = CPU_TO_LE32(reg_val);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_write_rx_ctl - write to an Rx control register
* @hw: pointer to the hw struct
* @reg_addr: register address
* @reg_val: register value
**/
void i40e_write_rx_ctl(struct i40e_hw *hw, u32 reg_addr, u32 reg_val)
{
enum i40e_status_code status = I40E_SUCCESS;
bool use_register;
int retry = 5;
use_register = (((hw->aq.api_maj_ver == 1) &&
(hw->aq.api_min_ver < 5)) ||
(hw->mac.type == I40E_MAC_X722));
if (!use_register) {
do_retry:
status = i40e_aq_rx_ctl_write_register(hw, reg_addr,
reg_val, NULL);
if (hw->aq.asq_last_status == I40E_AQ_RC_EAGAIN && retry) {
i40e_msec_delay(1);
retry--;
goto do_retry;
}
}
/* if the AQ access failed, try the old-fashioned way */
if (status || use_register)
wr32(hw, reg_addr, reg_val);
}
/**
* i40e_aq_set_phy_register
* @hw: pointer to the hw struct
* @phy_select: select which phy should be accessed
* @dev_addr: PHY device address
* @reg_addr: PHY register address
* @reg_val: new register value
* @cmd_details: pointer to command details structure or NULL
*
* Write the external PHY register.
**/
enum i40e_status_code i40e_aq_set_phy_register(struct i40e_hw *hw,
u8 phy_select, u8 dev_addr,
u32 reg_addr, u32 reg_val,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_phy_register_access *cmd =
(struct i40e_aqc_phy_register_access *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_phy_register);
cmd->phy_interface = phy_select;
cmd->dev_addres = dev_addr;
cmd->reg_address = CPU_TO_LE32(reg_addr);
cmd->reg_value = CPU_TO_LE32(reg_val);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_get_phy_register
* @hw: pointer to the hw struct
* @phy_select: select which phy should be accessed
* @dev_addr: PHY device address
* @reg_addr: PHY register address
* @reg_val: read register value
* @cmd_details: pointer to command details structure or NULL
*
* Read the external PHY register.
**/
enum i40e_status_code i40e_aq_get_phy_register(struct i40e_hw *hw,
u8 phy_select, u8 dev_addr,
u32 reg_addr, u32 *reg_val,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_phy_register_access *cmd =
(struct i40e_aqc_phy_register_access *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_get_phy_register);
cmd->phy_interface = phy_select;
cmd->dev_addres = dev_addr;
cmd->reg_address = CPU_TO_LE32(reg_addr);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (!status)
*reg_val = LE32_TO_CPU(cmd->reg_value);
return status;
}
#ifdef VF_DRIVER
/**
* i40e_aq_send_msg_to_pf
* @hw: pointer to the hardware structure
* @v_opcode: opcodes for VF-PF communication
* @v_retval: return error code
* @msg: pointer to the msg buffer
* @msglen: msg length
* @cmd_details: pointer to command details
*
* Send message to PF driver using admin queue. By default, this message
* is sent asynchronously, i.e. i40e_asq_send_command() does not wait for
* completion before returning.
**/
enum i40e_status_code i40e_aq_send_msg_to_pf(struct i40e_hw *hw,
enum virtchnl_ops v_opcode,
enum i40e_status_code v_retval,
u8 *msg, u16 msglen,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_asq_cmd_details details;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_send_msg_to_pf);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_SI);
desc.cookie_high = CPU_TO_LE32(v_opcode);
desc.cookie_low = CPU_TO_LE32(v_retval);
if (msglen) {
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF
| I40E_AQ_FLAG_RD));
if (msglen > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
desc.datalen = CPU_TO_LE16(msglen);
}
if (!cmd_details) {
i40e_memset(&details, 0, sizeof(details), I40E_NONDMA_MEM);
details.async = true;
cmd_details = &details;
}
status = i40e_asq_send_command(hw, (struct i40e_aq_desc *)&desc, msg,
msglen, cmd_details);
return status;
}
/**
* i40e_vf_parse_hw_config
* @hw: pointer to the hardware structure
* @msg: pointer to the virtual channel VF resource structure
*
* Given a VF resource message from the PF, populate the hw struct
* with appropriate information.
**/
void i40e_vf_parse_hw_config(struct i40e_hw *hw,
struct virtchnl_vf_resource *msg)
{
struct virtchnl_vsi_resource *vsi_res;
int i;
vsi_res = &msg->vsi_res[0];
hw->dev_caps.num_vsis = msg->num_vsis;
hw->dev_caps.num_rx_qp = msg->num_queue_pairs;
hw->dev_caps.num_tx_qp = msg->num_queue_pairs;
hw->dev_caps.num_msix_vectors_vf = msg->max_vectors;
hw->dev_caps.dcb = msg->vf_cap_flags &
VIRTCHNL_VF_OFFLOAD_L2;
hw->dev_caps.iwarp = (msg->vf_cap_flags &
VIRTCHNL_VF_OFFLOAD_IWARP) ? 1 : 0;
for (i = 0; i < msg->num_vsis; i++) {
if (vsi_res->vsi_type == VIRTCHNL_VSI_SRIOV) {
i40e_memcpy(hw->mac.perm_addr,
vsi_res->default_mac_addr,
ETH_ALEN,
I40E_NONDMA_TO_NONDMA);
i40e_memcpy(hw->mac.addr, vsi_res->default_mac_addr,
ETH_ALEN,
I40E_NONDMA_TO_NONDMA);
}
vsi_res++;
}
}
/**
* i40e_vf_reset
* @hw: pointer to the hardware structure
*
* Send a VF_RESET message to the PF. Does not wait for response from PF
* as none will be forthcoming. Immediately after calling this function,
* the admin queue should be shut down and (optionally) reinitialized.
**/
enum i40e_status_code i40e_vf_reset(struct i40e_hw *hw)
{
return i40e_aq_send_msg_to_pf(hw, VIRTCHNL_OP_RESET_VF,
I40E_SUCCESS, NULL, 0, NULL);
}
#endif /* VF_DRIVER */
/**
* i40e_aq_set_arp_proxy_config
* @hw: pointer to the HW structure
* @proxy_config: pointer to proxy config command table struct
* @cmd_details: pointer to command details
*
* Set ARP offload parameters from pre-populated
* i40e_aqc_arp_proxy_data struct
**/
enum i40e_status_code i40e_aq_set_arp_proxy_config(struct i40e_hw *hw,
struct i40e_aqc_arp_proxy_data *proxy_config,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
enum i40e_status_code status;
if (!proxy_config)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_set_proxy_config);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_RD);
desc.params.external.addr_high =
CPU_TO_LE32(I40E_HI_DWORD((u64)proxy_config));
desc.params.external.addr_low =
CPU_TO_LE32(I40E_LO_DWORD((u64)proxy_config));
desc.datalen = CPU_TO_LE16(sizeof(struct i40e_aqc_arp_proxy_data));
status = i40e_asq_send_command(hw, &desc, proxy_config,
sizeof(struct i40e_aqc_arp_proxy_data),
cmd_details);
return status;
}
/**
* i40e_aq_opc_set_ns_proxy_table_entry
* @hw: pointer to the HW structure
* @ns_proxy_table_entry: pointer to NS table entry command struct
* @cmd_details: pointer to command details
*
* Set IPv6 Neighbor Solicitation (NS) protocol offload parameters
* from pre-populated i40e_aqc_ns_proxy_data struct
**/
enum i40e_status_code i40e_aq_set_ns_proxy_table_entry(struct i40e_hw *hw,
struct i40e_aqc_ns_proxy_data *ns_proxy_table_entry,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
enum i40e_status_code status;
if (!ns_proxy_table_entry)
return I40E_ERR_PARAM;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_set_ns_proxy_table_entry);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_RD);
desc.params.external.addr_high =
CPU_TO_LE32(I40E_HI_DWORD((u64)ns_proxy_table_entry));
desc.params.external.addr_low =
CPU_TO_LE32(I40E_LO_DWORD((u64)ns_proxy_table_entry));
desc.datalen = CPU_TO_LE16(sizeof(struct i40e_aqc_ns_proxy_data));
status = i40e_asq_send_command(hw, &desc, ns_proxy_table_entry,
sizeof(struct i40e_aqc_ns_proxy_data),
cmd_details);
return status;
}
/**
* i40e_aq_set_clear_wol_filter
* @hw: pointer to the hw struct
* @filter_index: index of filter to modify (0-7)
* @filter: buffer containing filter to be set
* @set_filter: true to set filter, false to clear filter
* @no_wol_tco: if true, pass through packets cannot cause wake-up
* if false, pass through packets may cause wake-up
* @filter_valid: true if filter action is valid
* @no_wol_tco_valid: true if no WoL in TCO traffic action valid
* @cmd_details: pointer to command details structure or NULL
*
* Set or clear WoL filter for port attached to the PF
**/
enum i40e_status_code i40e_aq_set_clear_wol_filter(struct i40e_hw *hw,
u8 filter_index,
struct i40e_aqc_set_wol_filter_data *filter,
bool set_filter, bool no_wol_tco,
bool filter_valid, bool no_wol_tco_valid,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_set_wol_filter *cmd =
(struct i40e_aqc_set_wol_filter *)&desc.params.raw;
enum i40e_status_code status;
u16 cmd_flags = 0;
u16 valid_flags = 0;
u16 buff_len = 0;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_set_wol_filter);
if (filter_index >= I40E_AQC_MAX_NUM_WOL_FILTERS)
return I40E_ERR_PARAM;
cmd->filter_index = CPU_TO_LE16(filter_index);
if (set_filter) {
if (!filter)
return I40E_ERR_PARAM;
cmd_flags |= I40E_AQC_SET_WOL_FILTER;
cmd_flags |= I40E_AQC_SET_WOL_FILTER_WOL_PRESERVE_ON_PFR;
}
if (no_wol_tco)
cmd_flags |= I40E_AQC_SET_WOL_FILTER_NO_TCO_WOL;
cmd->cmd_flags = CPU_TO_LE16(cmd_flags);
if (filter_valid)
valid_flags |= I40E_AQC_SET_WOL_FILTER_ACTION_VALID;
if (no_wol_tco_valid)
valid_flags |= I40E_AQC_SET_WOL_FILTER_NO_TCO_ACTION_VALID;
cmd->valid_flags = CPU_TO_LE16(valid_flags);
buff_len = sizeof(*filter);
desc.datalen = CPU_TO_LE16(buff_len);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_RD);
cmd->address_high = CPU_TO_LE32(I40E_HI_DWORD((u64)filter));
cmd->address_low = CPU_TO_LE32(I40E_LO_DWORD((u64)filter));
status = i40e_asq_send_command(hw, &desc, filter,
buff_len, cmd_details);
return status;
}
/**
* i40e_aq_get_wake_event_reason
* @hw: pointer to the hw struct
* @wake_reason: return value, index of matching filter
* @cmd_details: pointer to command details structure or NULL
*
* Get information for the reason of a Wake Up event
**/
enum i40e_status_code i40e_aq_get_wake_event_reason(struct i40e_hw *hw,
u16 *wake_reason,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_get_wake_reason_completion *resp =
(struct i40e_aqc_get_wake_reason_completion *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc, i40e_aqc_opc_get_wake_reason);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
if (status == I40E_SUCCESS)
*wake_reason = LE16_TO_CPU(resp->wake_reason);
return status;
}
/**
* i40e_aq_clear_all_wol_filters
* @hw: pointer to the hw struct
* @cmd_details: pointer to command details structure or NULL
*
* Get information for the reason of a Wake Up event
**/
enum i40e_status_code i40e_aq_clear_all_wol_filters(struct i40e_hw *hw,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_clear_all_wol_filters);
status = i40e_asq_send_command(hw, &desc, NULL, 0, cmd_details);
return status;
}
/**
* i40e_aq_write_ddp - Write dynamic device personalization (ddp)
* @hw: pointer to the hw struct
* @buff: command buffer (size in bytes = buff_size)
* @buff_size: buffer size in bytes
* @track_id: package tracking id
* @error_offset: returns error offset
* @error_info: returns error information
* @cmd_details: pointer to command details structure or NULL
**/
enum
i40e_status_code i40e_aq_write_ddp(struct i40e_hw *hw, void *buff,
u16 buff_size, u32 track_id,
u32 *error_offset, u32 *error_info,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_write_personalization_profile *cmd =
(struct i40e_aqc_write_personalization_profile *)
&desc.params.raw;
struct i40e_aqc_write_ddp_resp *resp;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_write_personalization_profile);
desc.flags |= CPU_TO_LE16(I40E_AQ_FLAG_BUF | I40E_AQ_FLAG_RD);
if (buff_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
desc.datalen = CPU_TO_LE16(buff_size);
cmd->profile_track_id = CPU_TO_LE32(track_id);
status = i40e_asq_send_command(hw, &desc, buff, buff_size, cmd_details);
if (!status) {
resp = (struct i40e_aqc_write_ddp_resp *)&desc.params.raw;
if (error_offset)
*error_offset = LE32_TO_CPU(resp->error_offset);
if (error_info)
*error_info = LE32_TO_CPU(resp->error_info);
}
return status;
}
/**
* i40e_aq_get_ddp_list - Read dynamic device personalization (ddp)
* @hw: pointer to the hw struct
* @buff: command buffer (size in bytes = buff_size)
* @buff_size: buffer size in bytes
* @flags: AdminQ command flags
* @cmd_details: pointer to command details structure or NULL
**/
enum
i40e_status_code i40e_aq_get_ddp_list(struct i40e_hw *hw, void *buff,
u16 buff_size, u8 flags,
struct i40e_asq_cmd_details *cmd_details)
{
struct i40e_aq_desc desc;
struct i40e_aqc_get_applied_profiles *cmd =
(struct i40e_aqc_get_applied_profiles *)&desc.params.raw;
enum i40e_status_code status;
i40e_fill_default_direct_cmd_desc(&desc,
i40e_aqc_opc_get_personalization_profile_list);
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_BUF);
if (buff_size > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
desc.datalen = CPU_TO_LE16(buff_size);
cmd->flags = flags;
status = i40e_asq_send_command(hw, &desc, buff, buff_size, cmd_details);
return status;
}
/**
* i40e_find_segment_in_package
* @segment_type: the segment type to search for (i.e., SEGMENT_TYPE_I40E)
* @pkg_hdr: pointer to the package header to be searched
*
* This function searches a package file for a particular segment type. On
* success it returns a pointer to the segment header, otherwise it will
* return NULL.
**/
struct i40e_generic_seg_header *
i40e_find_segment_in_package(u32 segment_type,
struct i40e_package_header *pkg_hdr)
{
struct i40e_generic_seg_header *segment;
u32 i;
/* Search all package segments for the requested segment type */
for (i = 0; i < pkg_hdr->segment_count; i++) {
segment =
(struct i40e_generic_seg_header *)((u8 *)pkg_hdr +
pkg_hdr->segment_offset[i]);
if (segment->type == segment_type)
return segment;
}
return NULL;
}
/* Get section table in profile */
#define I40E_SECTION_TABLE(profile, sec_tbl) \
do { \
struct i40e_profile_segment *p = (profile); \
u32 count; \
u32 *nvm; \
count = p->device_table_count; \
nvm = (u32 *)&p->device_table[count]; \
sec_tbl = (struct i40e_section_table *)&nvm[nvm[0] + 1]; \
} while (0)
/* Get section header in profile */
#define I40E_SECTION_HEADER(profile, offset) \
(struct i40e_profile_section_header *)((u8 *)(profile) + (offset))
/**
* i40e_find_section_in_profile
* @section_type: the section type to search for (i.e., SECTION_TYPE_NOTE)
* @profile: pointer to the i40e segment header to be searched
*
* This function searches i40e segment for a particular section type. On
* success it returns a pointer to the section header, otherwise it will
* return NULL.
**/
struct i40e_profile_section_header *
i40e_find_section_in_profile(u32 section_type,
struct i40e_profile_segment *profile)
{
struct i40e_profile_section_header *sec;
struct i40e_section_table *sec_tbl;
u32 sec_off;
u32 i;
if (profile->header.type != SEGMENT_TYPE_I40E)
return NULL;
I40E_SECTION_TABLE(profile, sec_tbl);
for (i = 0; i < sec_tbl->section_count; i++) {
sec_off = sec_tbl->section_offset[i];
sec = I40E_SECTION_HEADER(profile, sec_off);
if (sec->section.type == section_type)
return sec;
}
return NULL;
}
/**
* i40e_ddp_exec_aq_section - Execute generic AQ for DDP
* @hw: pointer to the hw struct
* @aq: command buffer containing all data to execute AQ
**/
STATIC enum
i40e_status_code i40e_ddp_exec_aq_section(struct i40e_hw *hw,
struct i40e_profile_aq_section *aq)
{
enum i40e_status_code status;
struct i40e_aq_desc desc;
u8 *msg = NULL;
u16 msglen;
i40e_fill_default_direct_cmd_desc(&desc, aq->opcode);
desc.flags |= CPU_TO_LE16(aq->flags);
i40e_memcpy(desc.params.raw, aq->param, sizeof(desc.params.raw),
I40E_NONDMA_TO_NONDMA);
msglen = aq->datalen;
if (msglen) {
desc.flags |= CPU_TO_LE16((u16)(I40E_AQ_FLAG_BUF |
I40E_AQ_FLAG_RD));
if (msglen > I40E_AQ_LARGE_BUF)
desc.flags |= CPU_TO_LE16((u16)I40E_AQ_FLAG_LB);
desc.datalen = CPU_TO_LE16(msglen);
msg = &aq->data[0];
}
status = i40e_asq_send_command(hw, &desc, msg, msglen, NULL);
if (status != I40E_SUCCESS) {
i40e_debug(hw, I40E_DEBUG_PACKAGE,
"unable to exec DDP AQ opcode %u, error %d\n",
aq->opcode, status);
return status;
}
/* copy returned desc to aq_buf */
i40e_memcpy(aq->param, desc.params.raw, sizeof(desc.params.raw),
I40E_NONDMA_TO_NONDMA);
return I40E_SUCCESS;
}
/**
* i40e_validate_profile
* @hw: pointer to the hardware structure
* @profile: pointer to the profile segment of the package to be validated
* @track_id: package tracking id
* @rollback: flag if the profile is for rollback.
*
* Validates supported devices and profile's sections.
*/
STATIC enum i40e_status_code
i40e_validate_profile(struct i40e_hw *hw, struct i40e_profile_segment *profile,
u32 track_id, bool rollback)
{
struct i40e_profile_section_header *sec = NULL;
enum i40e_status_code status = I40E_SUCCESS;
struct i40e_section_table *sec_tbl;
u32 vendor_dev_id;
u32 dev_cnt;
u32 sec_off;
u32 i;
if (track_id == I40E_DDP_TRACKID_INVALID) {
i40e_debug(hw, I40E_DEBUG_PACKAGE, "Invalid track_id\n");
return I40E_NOT_SUPPORTED;
}
dev_cnt = profile->device_table_count;
for (i = 0; i < dev_cnt; i++) {
vendor_dev_id = profile->device_table[i].vendor_dev_id;
if ((vendor_dev_id >> 16) == I40E_INTEL_VENDOR_ID &&
hw->device_id == (vendor_dev_id & 0xFFFF))
break;
}
if (dev_cnt && (i == dev_cnt)) {
i40e_debug(hw, I40E_DEBUG_PACKAGE,
"Device doesn't support DDP\n");
return I40E_ERR_DEVICE_NOT_SUPPORTED;
}
I40E_SECTION_TABLE(profile, sec_tbl);
/* Validate sections types */
for (i = 0; i < sec_tbl->section_count; i++) {
sec_off = sec_tbl->section_offset[i];
sec = I40E_SECTION_HEADER(profile, sec_off);
if (rollback) {
if (sec->section.type == SECTION_TYPE_MMIO ||
sec->section.type == SECTION_TYPE_AQ ||
sec->section.type == SECTION_TYPE_RB_AQ) {
i40e_debug(hw, I40E_DEBUG_PACKAGE,
"Not a roll-back package\n");
return I40E_NOT_SUPPORTED;
}
} else {
if (sec->section.type == SECTION_TYPE_RB_AQ ||
sec->section.type == SECTION_TYPE_RB_MMIO) {
i40e_debug(hw, I40E_DEBUG_PACKAGE,
"Not an original package\n");
return I40E_NOT_SUPPORTED;
}
}
}
return status;
}
/**
* i40e_write_profile
* @hw: pointer to the hardware structure
* @profile: pointer to the profile segment of the package to be downloaded
* @track_id: package tracking id
*
* Handles the download of a complete package.
*/
enum i40e_status_code
i40e_write_profile(struct i40e_hw *hw, struct i40e_profile_segment *profile,
u32 track_id)
{
enum i40e_status_code status = I40E_SUCCESS;
struct i40e_section_table *sec_tbl;
struct i40e_profile_section_header *sec = NULL;
struct i40e_profile_aq_section *ddp_aq;
u32 section_size = 0;
u32 offset = 0, info = 0;
u32 sec_off;
u32 i;
status = i40e_validate_profile(hw, profile, track_id, false);
if (status)
return status;
I40E_SECTION_TABLE(profile, sec_tbl);
for (i = 0; i < sec_tbl->section_count; i++) {
sec_off = sec_tbl->section_offset[i];
sec = I40E_SECTION_HEADER(profile, sec_off);
/* Process generic admin command */
if (sec->section.type == SECTION_TYPE_AQ) {
ddp_aq = (struct i40e_profile_aq_section *)&sec[1];
status = i40e_ddp_exec_aq_section(hw, ddp_aq);
if (status) {
i40e_debug(hw, I40E_DEBUG_PACKAGE,
"Failed to execute aq: section %d, opcode %u\n",
i, ddp_aq->opcode);
break;
}
sec->section.type = SECTION_TYPE_RB_AQ;
}
/* Skip any non-mmio sections */
if (sec->section.type != SECTION_TYPE_MMIO)
continue;
section_size = sec->section.size +
sizeof(struct i40e_profile_section_header);
/* Write MMIO section */
status = i40e_aq_write_ddp(hw, (void *)sec, (u16)section_size,
track_id, &offset, &info, NULL);
if (status) {
i40e_debug(hw, I40E_DEBUG_PACKAGE,
"Failed to write profile: section %d, offset %d, info %d\n",
i, offset, info);
break;
}
}
return status;
}
/**
* i40e_rollback_profile
* @hw: pointer to the hardware structure
* @profile: pointer to the profile segment of the package to be removed
* @track_id: package tracking id
*
* Rolls back previously loaded package.
*/
enum i40e_status_code
i40e_rollback_profile(struct i40e_hw *hw, struct i40e_profile_segment *profile,
u32 track_id)
{
struct i40e_profile_section_header *sec = NULL;
enum i40e_status_code status = I40E_SUCCESS;
struct i40e_section_table *sec_tbl;
u32 offset = 0, info = 0;
u32 section_size = 0;
u32 sec_off;
int i;
status = i40e_validate_profile(hw, profile, track_id, true);
if (status)
return status;
I40E_SECTION_TABLE(profile, sec_tbl);
/* For rollback write sections in reverse */
for (i = sec_tbl->section_count - 1; i >= 0; i--) {
sec_off = sec_tbl->section_offset[i];
sec = I40E_SECTION_HEADER(profile, sec_off);
/* Skip any non-rollback sections */
if (sec->section.type != SECTION_TYPE_RB_MMIO)
continue;
section_size = sec->section.size +
sizeof(struct i40e_profile_section_header);
/* Write roll-back MMIO section */
status = i40e_aq_write_ddp(hw, (void *)sec, (u16)section_size,
track_id, &offset, &info, NULL);
if (status) {
i40e_debug(hw, I40E_DEBUG_PACKAGE,
"Failed to write profile: section %d, offset %d, info %d\n",
i, offset, info);
break;
}
}
return status;
}
/**
* i40e_add_pinfo_to_list
* @hw: pointer to the hardware structure
* @profile: pointer to the profile segment of the package
* @profile_info_sec: buffer for information section
* @track_id: package tracking id
*
* Register a profile to the list of loaded profiles.
*/
enum i40e_status_code
i40e_add_pinfo_to_list(struct i40e_hw *hw,
struct i40e_profile_segment *profile,
u8 *profile_info_sec, u32 track_id)
{
enum i40e_status_code status = I40E_SUCCESS;
struct i40e_profile_section_header *sec = NULL;
struct i40e_profile_info *pinfo;
u32 offset = 0, info = 0;
sec = (struct i40e_profile_section_header *)profile_info_sec;
sec->tbl_size = 1;
sec->data_end = sizeof(struct i40e_profile_section_header) +
sizeof(struct i40e_profile_info);
sec->section.type = SECTION_TYPE_INFO;
sec->section.offset = sizeof(struct i40e_profile_section_header);
sec->section.size = sizeof(struct i40e_profile_info);
pinfo = (struct i40e_profile_info *)(profile_info_sec +
sec->section.offset);
pinfo->track_id = track_id;
pinfo->version = profile->version;
pinfo->op = I40E_DDP_ADD_TRACKID;
i40e_memcpy(pinfo->name, profile->name, I40E_DDP_NAME_SIZE,
I40E_NONDMA_TO_NONDMA);
status = i40e_aq_write_ddp(hw, (void *)sec, sec->data_end,
track_id, &offset, &info, NULL);
return status;
}
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