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linux/drivers/net/wireless/ath/ath11k/qmi.c
Carl Huang e838c14a9e ath11k: enable shadow register configuration and access 
To enable shadow register access, host needs to pass shadow
register configuration to firmware via qmi message. Host also
needs to update ring's HP or TP address to shadow register
address. The write operation to shadow register will be
forwarded to target register by hardware automatically, and
the write operation to shadow register is permitted even
when the target is in power save or sleep mode.

Update the shadow config whenever power up happens.

This feature is controlled by hw parameter supports_shadow_regs which is only
enabled for QCA6390.

Tested-on: QCA6390 hw2.0 PCI WLAN.HST.1.0.1-01740-QCAHSTSWPLZ_V2_TO_X86-1

Signed-off-by: Carl Huang <cjhuang@codeaurora.org>
Signed-off-by: Kalle Valo <kvalo@codeaurora.org>
Link: https://lore.kernel.org/r/1601544890-13450-3-git-send-email-kvalo@codeaurora.org
2020-10-01 22:33:04 +03:00

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// SPDX-License-Identifier: BSD-3-Clause-Clear
/*
* Copyright (c) 2018-2019 The Linux Foundation. All rights reserved.
*/
#include <linux/elf.h>
#include "qmi.h"
#include "core.h"
#include "debug.h"
#include <linux/of.h>
#include <linux/firmware.h>
#define SLEEP_CLOCK_SELECT_INTERNAL_BIT 0x02
#define HOST_CSTATE_BIT 0x04
static struct qmi_elem_info qmi_wlanfw_host_cap_req_msg_v01_ei[] = {
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
num_clients_valid),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
num_clients),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x11,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
wake_msi_valid),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0x11,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
wake_msi),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x12,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
gpios_valid),
},
{
.data_type = QMI_DATA_LEN,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x12,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
gpios_len),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = QMI_WLFW_MAX_NUM_GPIO_V01,
.elem_size = sizeof(u32),
.array_type = VAR_LEN_ARRAY,
.tlv_type = 0x12,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
gpios),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x13,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
nm_modem_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x13,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
nm_modem),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x14,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
bdf_support_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x14,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
bdf_support),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x15,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
bdf_cache_support_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x15,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
bdf_cache_support),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x16,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
m3_support_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x16,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
m3_support),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x17,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
m3_cache_support_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x17,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
m3_cache_support),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x18,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
cal_filesys_support_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x18,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
cal_filesys_support),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x19,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
cal_cache_support_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x19,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
cal_cache_support),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x1A,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
cal_done_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x1A,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
cal_done),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x1B,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
mem_bucket_valid),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0x1B,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
mem_bucket),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x1C,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
mem_cfg_mode_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x1C,
.offset = offsetof(struct qmi_wlanfw_host_cap_req_msg_v01,
mem_cfg_mode),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_host_cap_resp_msg_v01_ei[] = {
{
.data_type = QMI_STRUCT,
.elem_len = 1,
.elem_size = sizeof(struct qmi_response_type_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x02,
.offset = offsetof(struct qmi_wlanfw_host_cap_resp_msg_v01, resp),
.ei_array = qmi_response_type_v01_ei,
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_ind_register_req_msg_v01_ei[] = {
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
fw_ready_enable_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
fw_ready_enable),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x11,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
initiate_cal_download_enable_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x11,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
initiate_cal_download_enable),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x12,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
initiate_cal_update_enable_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x12,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
initiate_cal_update_enable),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x13,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
msa_ready_enable_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x13,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
msa_ready_enable),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x14,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
pin_connect_result_enable_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x14,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
pin_connect_result_enable),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x15,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
client_id_valid),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0x15,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
client_id),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x16,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
request_mem_enable_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x16,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
request_mem_enable),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x17,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
fw_mem_ready_enable_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x17,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
fw_mem_ready_enable),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x18,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
fw_init_done_enable_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x18,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
fw_init_done_enable),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x19,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
rejuvenate_enable_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x19,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
rejuvenate_enable),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x1A,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
xo_cal_enable_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x1A,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
xo_cal_enable),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x1B,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
cal_done_enable_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x1B,
.offset = offsetof(struct qmi_wlanfw_ind_register_req_msg_v01,
cal_done_enable),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_ind_register_resp_msg_v01_ei[] = {
{
.data_type = QMI_STRUCT,
.elem_len = 1,
.elem_size = sizeof(struct qmi_response_type_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x02,
.offset = offsetof(struct qmi_wlanfw_ind_register_resp_msg_v01,
resp),
.ei_array = qmi_response_type_v01_ei,
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_ind_register_resp_msg_v01,
fw_status_valid),
},
{
.data_type = QMI_UNSIGNED_8_BYTE,
.elem_len = 1,
.elem_size = sizeof(u64),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_ind_register_resp_msg_v01,
fw_status),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_mem_cfg_s_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_8_BYTE,
.elem_len = 1,
.elem_size = sizeof(u64),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_mem_cfg_s_v01, offset),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_mem_cfg_s_v01, size),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_mem_cfg_s_v01, secure_flag),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_mem_seg_s_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_mem_seg_s_v01,
size),
},
{
.data_type = QMI_SIGNED_4_BYTE_ENUM,
.elem_len = 1,
.elem_size = sizeof(enum qmi_wlanfw_mem_type_enum_v01),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_mem_seg_s_v01, type),
},
{
.data_type = QMI_DATA_LEN,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_mem_seg_s_v01, mem_cfg_len),
},
{
.data_type = QMI_STRUCT,
.elem_len = QMI_WLANFW_MAX_NUM_MEM_CFG_V01,
.elem_size = sizeof(struct qmi_wlanfw_mem_cfg_s_v01),
.array_type = VAR_LEN_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_mem_seg_s_v01, mem_cfg),
.ei_array = qmi_wlanfw_mem_cfg_s_v01_ei,
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_request_mem_ind_msg_v01_ei[] = {
{
.data_type = QMI_DATA_LEN,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x01,
.offset = offsetof(struct qmi_wlanfw_request_mem_ind_msg_v01,
mem_seg_len),
},
{
.data_type = QMI_STRUCT,
.elem_len = ATH11K_QMI_WLANFW_MAX_NUM_MEM_SEG_V01,
.elem_size = sizeof(struct qmi_wlanfw_mem_seg_s_v01),
.array_type = VAR_LEN_ARRAY,
.tlv_type = 0x01,
.offset = offsetof(struct qmi_wlanfw_request_mem_ind_msg_v01,
mem_seg),
.ei_array = qmi_wlanfw_mem_seg_s_v01_ei,
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_mem_seg_resp_s_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_8_BYTE,
.elem_len = 1,
.elem_size = sizeof(u64),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_mem_seg_resp_s_v01, addr),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_mem_seg_resp_s_v01, size),
},
{
.data_type = QMI_SIGNED_4_BYTE_ENUM,
.elem_len = 1,
.elem_size = sizeof(enum qmi_wlanfw_mem_type_enum_v01),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_mem_seg_resp_s_v01, type),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_mem_seg_resp_s_v01, restore),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_respond_mem_req_msg_v01_ei[] = {
{
.data_type = QMI_DATA_LEN,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x01,
.offset = offsetof(struct qmi_wlanfw_respond_mem_req_msg_v01,
mem_seg_len),
},
{
.data_type = QMI_STRUCT,
.elem_len = ATH11K_QMI_WLANFW_MAX_NUM_MEM_SEG_V01,
.elem_size = sizeof(struct qmi_wlanfw_mem_seg_resp_s_v01),
.array_type = VAR_LEN_ARRAY,
.tlv_type = 0x01,
.offset = offsetof(struct qmi_wlanfw_respond_mem_req_msg_v01,
mem_seg),
.ei_array = qmi_wlanfw_mem_seg_resp_s_v01_ei,
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_respond_mem_resp_msg_v01_ei[] = {
{
.data_type = QMI_STRUCT,
.elem_len = 1,
.elem_size = sizeof(struct qmi_response_type_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x02,
.offset = offsetof(struct qmi_wlanfw_respond_mem_resp_msg_v01,
resp),
.ei_array = qmi_response_type_v01_ei,
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_cap_req_msg_v01_ei[] = {
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_rf_chip_info_s_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_rf_chip_info_s_v01,
chip_id),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_rf_chip_info_s_v01,
chip_family),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_rf_board_info_s_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_rf_board_info_s_v01,
board_id),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_soc_info_s_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_soc_info_s_v01, soc_id),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_fw_version_info_s_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_fw_version_info_s_v01,
fw_version),
},
{
.data_type = QMI_STRING,
.elem_len = ATH11K_QMI_WLANFW_MAX_TIMESTAMP_LEN_V01 + 1,
.elem_size = sizeof(char),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_fw_version_info_s_v01,
fw_build_timestamp),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_cap_resp_msg_v01_ei[] = {
{
.data_type = QMI_STRUCT,
.elem_len = 1,
.elem_size = sizeof(struct qmi_response_type_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x02,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01, resp),
.ei_array = qmi_response_type_v01_ei,
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01,
chip_info_valid),
},
{
.data_type = QMI_STRUCT,
.elem_len = 1,
.elem_size = sizeof(struct qmi_wlanfw_rf_chip_info_s_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01,
chip_info),
.ei_array = qmi_wlanfw_rf_chip_info_s_v01_ei,
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x11,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01,
board_info_valid),
},
{
.data_type = QMI_STRUCT,
.elem_len = 1,
.elem_size = sizeof(struct qmi_wlanfw_rf_board_info_s_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x11,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01,
board_info),
.ei_array = qmi_wlanfw_rf_board_info_s_v01_ei,
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x12,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01,
soc_info_valid),
},
{
.data_type = QMI_STRUCT,
.elem_len = 1,
.elem_size = sizeof(struct qmi_wlanfw_soc_info_s_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x12,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01,
soc_info),
.ei_array = qmi_wlanfw_soc_info_s_v01_ei,
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x13,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01,
fw_version_info_valid),
},
{
.data_type = QMI_STRUCT,
.elem_len = 1,
.elem_size = sizeof(struct qmi_wlanfw_fw_version_info_s_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x13,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01,
fw_version_info),
.ei_array = qmi_wlanfw_fw_version_info_s_v01_ei,
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x14,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01,
fw_build_id_valid),
},
{
.data_type = QMI_STRING,
.elem_len = ATH11K_QMI_WLANFW_MAX_BUILD_ID_LEN_V01 + 1,
.elem_size = sizeof(char),
.array_type = NO_ARRAY,
.tlv_type = 0x14,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01,
fw_build_id),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x15,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01,
num_macs_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x15,
.offset = offsetof(struct qmi_wlanfw_cap_resp_msg_v01,
num_macs),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_bdf_download_req_msg_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x01,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
valid),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
file_id_valid),
},
{
.data_type = QMI_SIGNED_4_BYTE_ENUM,
.elem_len = 1,
.elem_size = sizeof(enum qmi_wlanfw_cal_temp_id_enum_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
file_id),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x11,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
total_size_valid),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0x11,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
total_size),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x12,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
seg_id_valid),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0x12,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
seg_id),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x13,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
data_valid),
},
{
.data_type = QMI_DATA_LEN,
.elem_len = 1,
.elem_size = sizeof(u16),
.array_type = NO_ARRAY,
.tlv_type = 0x13,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
data_len),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = QMI_WLANFW_MAX_DATA_SIZE_V01,
.elem_size = sizeof(u8),
.array_type = VAR_LEN_ARRAY,
.tlv_type = 0x13,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
data),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x14,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
end_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x14,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
end),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x15,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
bdf_type_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x15,
.offset = offsetof(struct qmi_wlanfw_bdf_download_req_msg_v01,
bdf_type),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_bdf_download_resp_msg_v01_ei[] = {
{
.data_type = QMI_STRUCT,
.elem_len = 1,
.elem_size = sizeof(struct qmi_response_type_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x02,
.offset = offsetof(struct qmi_wlanfw_bdf_download_resp_msg_v01,
resp),
.ei_array = qmi_response_type_v01_ei,
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_m3_info_req_msg_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_8_BYTE,
.elem_len = 1,
.elem_size = sizeof(u64),
.array_type = NO_ARRAY,
.tlv_type = 0x01,
.offset = offsetof(struct qmi_wlanfw_m3_info_req_msg_v01, addr),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0x02,
.offset = offsetof(struct qmi_wlanfw_m3_info_req_msg_v01, size),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_m3_info_resp_msg_v01_ei[] = {
{
.data_type = QMI_STRUCT,
.elem_len = 1,
.elem_size = sizeof(struct qmi_response_type_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x02,
.offset = offsetof(struct qmi_wlanfw_m3_info_resp_msg_v01, resp),
.ei_array = qmi_response_type_v01_ei,
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_ce_tgt_pipe_cfg_s_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_ce_tgt_pipe_cfg_s_v01,
pipe_num),
},
{
.data_type = QMI_SIGNED_4_BYTE_ENUM,
.elem_len = 1,
.elem_size = sizeof(enum qmi_wlanfw_pipedir_enum_v01),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_ce_tgt_pipe_cfg_s_v01,
pipe_dir),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_ce_tgt_pipe_cfg_s_v01,
nentries),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_ce_tgt_pipe_cfg_s_v01,
nbytes_max),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_ce_tgt_pipe_cfg_s_v01,
flags),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_ce_svc_pipe_cfg_s_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_ce_svc_pipe_cfg_s_v01,
service_id),
},
{
.data_type = QMI_SIGNED_4_BYTE_ENUM,
.elem_len = 1,
.elem_size = sizeof(enum qmi_wlanfw_pipedir_enum_v01),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_ce_svc_pipe_cfg_s_v01,
pipe_dir),
},
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_ce_svc_pipe_cfg_s_v01,
pipe_num),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_shadow_reg_cfg_s_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_2_BYTE,
.elem_len = 1,
.elem_size = sizeof(u16),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_shadow_reg_cfg_s_v01, id),
},
{
.data_type = QMI_UNSIGNED_2_BYTE,
.elem_len = 1,
.elem_size = sizeof(u16),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_shadow_reg_cfg_s_v01,
offset),
},
{
.data_type = QMI_EOTI,
.array_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_shadow_reg_v2_cfg_s_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0,
.offset = offsetof(struct qmi_wlanfw_shadow_reg_v2_cfg_s_v01,
addr),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_wlan_mode_req_msg_v01_ei[] = {
{
.data_type = QMI_UNSIGNED_4_BYTE,
.elem_len = 1,
.elem_size = sizeof(u32),
.array_type = NO_ARRAY,
.tlv_type = 0x01,
.offset = offsetof(struct qmi_wlanfw_wlan_mode_req_msg_v01,
mode),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_wlan_mode_req_msg_v01,
hw_debug_valid),
},
{
.data_type = QMI_UNSIGNED_1_BYTE,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_wlan_mode_req_msg_v01,
hw_debug),
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_wlan_mode_resp_msg_v01_ei[] = {
{
.data_type = QMI_STRUCT,
.elem_len = 1,
.elem_size = sizeof(struct qmi_response_type_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x02,
.offset = offsetof(struct qmi_wlanfw_wlan_mode_resp_msg_v01,
resp),
.ei_array = qmi_response_type_v01_ei,
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_wlan_cfg_req_msg_v01_ei[] = {
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
host_version_valid),
},
{
.data_type = QMI_STRING,
.elem_len = QMI_WLANFW_MAX_STR_LEN_V01 + 1,
.elem_size = sizeof(char),
.array_type = NO_ARRAY,
.tlv_type = 0x10,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
host_version),
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x11,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
tgt_cfg_valid),
},
{
.data_type = QMI_DATA_LEN,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x11,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
tgt_cfg_len),
},
{
.data_type = QMI_STRUCT,
.elem_len = QMI_WLANFW_MAX_NUM_CE_V01,
.elem_size = sizeof(
struct qmi_wlanfw_ce_tgt_pipe_cfg_s_v01),
.array_type = VAR_LEN_ARRAY,
.tlv_type = 0x11,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
tgt_cfg),
.ei_array = qmi_wlanfw_ce_tgt_pipe_cfg_s_v01_ei,
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x12,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
svc_cfg_valid),
},
{
.data_type = QMI_DATA_LEN,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x12,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
svc_cfg_len),
},
{
.data_type = QMI_STRUCT,
.elem_len = QMI_WLANFW_MAX_NUM_SVC_V01,
.elem_size = sizeof(struct qmi_wlanfw_ce_svc_pipe_cfg_s_v01),
.array_type = VAR_LEN_ARRAY,
.tlv_type = 0x12,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
svc_cfg),
.ei_array = qmi_wlanfw_ce_svc_pipe_cfg_s_v01_ei,
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x13,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
shadow_reg_valid),
},
{
.data_type = QMI_DATA_LEN,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x13,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
shadow_reg_len),
},
{
.data_type = QMI_STRUCT,
.elem_len = QMI_WLANFW_MAX_NUM_SHADOW_REG_V01,
.elem_size = sizeof(struct qmi_wlanfw_shadow_reg_cfg_s_v01),
.array_type = VAR_LEN_ARRAY,
.tlv_type = 0x13,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
shadow_reg),
.ei_array = qmi_wlanfw_shadow_reg_cfg_s_v01_ei,
},
{
.data_type = QMI_OPT_FLAG,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x14,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
shadow_reg_v2_valid),
},
{
.data_type = QMI_DATA_LEN,
.elem_len = 1,
.elem_size = sizeof(u8),
.array_type = NO_ARRAY,
.tlv_type = 0x14,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
shadow_reg_v2_len),
},
{
.data_type = QMI_STRUCT,
.elem_len = QMI_WLANFW_MAX_NUM_SHADOW_REG_V2_V01,
.elem_size = sizeof(struct qmi_wlanfw_shadow_reg_v2_cfg_s_v01),
.array_type = VAR_LEN_ARRAY,
.tlv_type = 0x14,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_req_msg_v01,
shadow_reg_v2),
.ei_array = qmi_wlanfw_shadow_reg_v2_cfg_s_v01_ei,
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_wlan_cfg_resp_msg_v01_ei[] = {
{
.data_type = QMI_STRUCT,
.elem_len = 1,
.elem_size = sizeof(struct qmi_response_type_v01),
.array_type = NO_ARRAY,
.tlv_type = 0x02,
.offset = offsetof(struct qmi_wlanfw_wlan_cfg_resp_msg_v01, resp),
.ei_array = qmi_response_type_v01_ei,
},
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
.tlv_type = QMI_COMMON_TLV_TYPE,
},
};
static struct qmi_elem_info qmi_wlanfw_mem_ready_ind_msg_v01_ei[] = {
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
},
};
static struct qmi_elem_info qmi_wlanfw_fw_ready_ind_msg_v01_ei[] = {
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
},
};
static struct qmi_elem_info qmi_wlanfw_cold_boot_cal_done_ind_msg_v01_ei[] = {
{
.data_type = QMI_EOTI,
.array_type = NO_ARRAY,
},
};
static int ath11k_qmi_host_cap_send(struct ath11k_base *ab)
{
struct qmi_wlanfw_host_cap_req_msg_v01 req;
struct qmi_wlanfw_host_cap_resp_msg_v01 resp;
struct qmi_txn txn = {};
int ret = 0;
memset(&req, 0, sizeof(req));
memset(&resp, 0, sizeof(resp));
req.num_clients_valid = 1;
req.num_clients = 1;
req.mem_cfg_mode = ab->qmi.target_mem_mode;
req.mem_cfg_mode_valid = 1;
req.bdf_support_valid = 1;
req.bdf_support = 1;
if (ab->bus_params.m3_fw_support) {
req.m3_support_valid = 1;
req.m3_support = 1;
req.m3_cache_support_valid = 1;
req.m3_cache_support = 1;
} else {
req.m3_support_valid = 0;
req.m3_support = 0;
req.m3_cache_support_valid = 0;
req.m3_cache_support = 0;
}
req.cal_done_valid = 1;
req.cal_done = ab->qmi.cal_done;
if (ab->hw_params.internal_sleep_clock) {
req.nm_modem_valid = 1;
/* Notify firmware that this is non-qualcomm platform. */
req.nm_modem |= HOST_CSTATE_BIT;
/* Notify firmware about the sleep clock selection,
* nm_modem_bit[1] is used for this purpose. Host driver on
* non-qualcomm platforms should select internal sleep
* clock.
*/
req.nm_modem |= SLEEP_CLOCK_SELECT_INTERNAL_BIT;
}
ret = qmi_txn_init(&ab->qmi.handle, &txn,
qmi_wlanfw_host_cap_resp_msg_v01_ei, &resp);
if (ret < 0)
goto out;
ret = qmi_send_request(&ab->qmi.handle, NULL, &txn,
QMI_WLANFW_HOST_CAP_REQ_V01,
QMI_WLANFW_HOST_CAP_REQ_MSG_V01_MAX_LEN,
qmi_wlanfw_host_cap_req_msg_v01_ei, &req);
if (ret < 0) {
ath11k_warn(ab, "Failed to send host capability request,err = %d\n", ret);
goto out;
}
ret = qmi_txn_wait(&txn, msecs_to_jiffies(ATH11K_QMI_WLANFW_TIMEOUT_MS));
if (ret < 0)
goto out;
if (resp.resp.result != QMI_RESULT_SUCCESS_V01) {
ath11k_warn(ab, "Host capability request failed, result: %d, err: %d\n",
resp.resp.result, resp.resp.error);
ret = -EINVAL;
goto out;
}
out:
return ret;
}
static int ath11k_qmi_fw_ind_register_send(struct ath11k_base *ab)
{
struct qmi_wlanfw_ind_register_req_msg_v01 *req;
struct qmi_wlanfw_ind_register_resp_msg_v01 *resp;
struct qmi_handle *handle = &ab->qmi.handle;
struct qmi_txn txn;
int ret = 0;
req = kzalloc(sizeof(*req), GFP_KERNEL);
if (!req)
return -ENOMEM;
resp = kzalloc(sizeof(*resp), GFP_KERNEL);
if (!resp)
goto resp_out;
req->client_id_valid = 1;
req->client_id = QMI_WLANFW_CLIENT_ID;
req->fw_ready_enable_valid = 1;
req->fw_ready_enable = 1;
req->request_mem_enable_valid = 1;
req->request_mem_enable = 1;
req->fw_mem_ready_enable_valid = 1;
req->fw_mem_ready_enable = 1;
req->cal_done_enable_valid = 1;
req->cal_done_enable = 1;
req->fw_init_done_enable_valid = 1;
req->fw_init_done_enable = 1;
req->pin_connect_result_enable_valid = 0;
req->pin_connect_result_enable = 0;
ret = qmi_txn_init(handle, &txn,
qmi_wlanfw_ind_register_resp_msg_v01_ei, resp);
if (ret < 0)
goto out;
ret = qmi_send_request(&ab->qmi.handle, NULL, &txn,
QMI_WLANFW_IND_REGISTER_REQ_V01,
QMI_WLANFW_IND_REGISTER_REQ_MSG_V01_MAX_LEN,
qmi_wlanfw_ind_register_req_msg_v01_ei, req);
if (ret < 0) {
ath11k_warn(ab, "Failed to send indication register request, err = %d\n",
ret);
goto out;
}
ret = qmi_txn_wait(&txn, msecs_to_jiffies(ATH11K_QMI_WLANFW_TIMEOUT_MS));
if (ret < 0) {
ath11k_warn(ab, "failed to register fw indication %d\n", ret);
goto out;
}
if (resp->resp.result != QMI_RESULT_SUCCESS_V01) {
ath11k_warn(ab, "FW Ind register request failed, result: %d, err: %d\n",
resp->resp.result, resp->resp.error);
ret = -EINVAL;
goto out;
}
out:
kfree(resp);
resp_out:
kfree(req);
return ret;
}
static int ath11k_qmi_respond_fw_mem_request(struct ath11k_base *ab)
{
struct qmi_wlanfw_respond_mem_req_msg_v01 *req;
struct qmi_wlanfw_respond_mem_resp_msg_v01 resp;
struct qmi_txn txn = {};
int ret = 0, i;
req = kzalloc(sizeof(*req), GFP_KERNEL);
if (!req)
return -ENOMEM;
memset(&resp, 0, sizeof(resp));
/* For QCA6390 by default FW requests a block of ~4M contiguous
* DMA memory, it's hard to allocate from OS. So host returns
* failure to FW and FW will then request mulitple blocks of small
* chunk size memory.
*/
if (!ab->bus_params.fixed_mem_region && ab->qmi.mem_seg_count <= 2) {
ath11k_dbg(ab, ATH11K_DBG_QMI, "qmi delays mem_request %d\n",
ab->qmi.mem_seg_count);
memset(req, 0, sizeof(*req));
} else {
req->mem_seg_len = ab->qmi.mem_seg_count;
for (i = 0; i < req->mem_seg_len ; i++) {
req->mem_seg[i].addr = ab->qmi.target_mem[i].paddr;
req->mem_seg[i].size = ab->qmi.target_mem[i].size;
req->mem_seg[i].type = ab->qmi.target_mem[i].type;
}
}
ret = qmi_txn_init(&ab->qmi.handle, &txn,
qmi_wlanfw_respond_mem_resp_msg_v01_ei, &resp);
if (ret < 0)
goto out;
ret = qmi_send_request(&ab->qmi.handle, NULL, &txn,
QMI_WLANFW_RESPOND_MEM_REQ_V01,
QMI_WLANFW_RESPOND_MEM_REQ_MSG_V01_MAX_LEN,
qmi_wlanfw_respond_mem_req_msg_v01_ei, req);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to respond memory request, err = %d\n",
ret);
goto out;
}
ret = qmi_txn_wait(&txn, msecs_to_jiffies(ATH11K_QMI_WLANFW_TIMEOUT_MS));
if (ret < 0) {
ath11k_warn(ab, "qmi failed memory request, err = %d\n", ret);
goto out;
}
if (resp.resp.result != QMI_RESULT_SUCCESS_V01) {
ath11k_warn(ab, "Respond mem req failed, result: %d, err: %d\n",
resp.resp.result, resp.resp.error);
ret = -EINVAL;
goto out;
}
out:
kfree(req);
return ret;
}
static void ath11k_qmi_free_target_mem_chunk(struct ath11k_base *ab)
{
int i;
if (ab->bus_params.fixed_mem_region)
return;
for (i = 0; i < ab->qmi.mem_seg_count; i++) {
if (!ab->qmi.target_mem[i].vaddr)
continue;
dma_free_coherent(ab->dev,
ab->qmi.target_mem[i].size,
ab->qmi.target_mem[i].vaddr,
ab->qmi.target_mem[i].paddr);
ab->qmi.target_mem[i].vaddr = NULL;
}
}
static int ath11k_qmi_alloc_target_mem_chunk(struct ath11k_base *ab)
{
int i;
struct target_mem_chunk *chunk;
for (i = 0; i < ab->qmi.mem_seg_count; i++) {
chunk = &ab->qmi.target_mem[i];
chunk->vaddr = dma_alloc_coherent(ab->dev,
chunk->size,
&chunk->paddr,
GFP_KERNEL);
if (!chunk->vaddr) {
ath11k_err(ab, "failed to alloc memory, size: 0x%x, type: %u\n",
chunk->size,
chunk->type);
return -EINVAL;
}
}
return 0;
}
static int ath11k_qmi_assign_target_mem_chunk(struct ath11k_base *ab)
{
int i, idx;
for (i = 0, idx = 0; i < ab->qmi.mem_seg_count; i++) {
switch (ab->qmi.target_mem[i].type) {
case BDF_MEM_REGION_TYPE:
ab->qmi.target_mem[idx].paddr = ab->hw_params.bdf_addr;
ab->qmi.target_mem[idx].vaddr = NULL;
ab->qmi.target_mem[idx].size = ab->qmi.target_mem[i].size;
ab->qmi.target_mem[idx].type = ab->qmi.target_mem[i].type;
idx++;
break;
case CALDB_MEM_REGION_TYPE:
if (ab->qmi.target_mem[i].size > ATH11K_QMI_CALDB_SIZE) {
ath11k_warn(ab, "qmi mem size is low to load caldata\n");
return -EINVAL;
}
/* TODO ath11k does not support cold boot calibration */
ab->qmi.target_mem[idx].paddr = 0;
ab->qmi.target_mem[idx].vaddr = NULL;
ab->qmi.target_mem[idx].size = ab->qmi.target_mem[i].size;
ab->qmi.target_mem[idx].type = ab->qmi.target_mem[i].type;
idx++;
break;
default:
ath11k_warn(ab, "qmi ignore invalid mem req type %d\n",
ab->qmi.target_mem[i].type);
break;
}
}
ab->qmi.mem_seg_count = idx;
return 0;
}
static int ath11k_qmi_request_target_cap(struct ath11k_base *ab)
{
struct qmi_wlanfw_cap_req_msg_v01 req;
struct qmi_wlanfw_cap_resp_msg_v01 resp;
struct qmi_txn txn = {};
int ret = 0;
memset(&req, 0, sizeof(req));
memset(&resp, 0, sizeof(resp));
ret = qmi_txn_init(&ab->qmi.handle, &txn,
qmi_wlanfw_cap_resp_msg_v01_ei, &resp);
if (ret < 0)
goto out;
ret = qmi_send_request(&ab->qmi.handle, NULL, &txn,
QMI_WLANFW_CAP_REQ_V01,
QMI_WLANFW_CAP_REQ_MSG_V01_MAX_LEN,
qmi_wlanfw_cap_req_msg_v01_ei, &req);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to send target cap request, err = %d\n",
ret);
goto out;
}
ret = qmi_txn_wait(&txn, msecs_to_jiffies(ATH11K_QMI_WLANFW_TIMEOUT_MS));
if (ret < 0) {
ath11k_warn(ab, "qmi failed target cap request %d\n", ret);
goto out;
}
if (resp.resp.result != QMI_RESULT_SUCCESS_V01) {
ath11k_warn(ab, "qmi targetcap req failed, result: %d, err: %d\n",
resp.resp.result, resp.resp.error);
ret = -EINVAL;
goto out;
}
if (resp.chip_info_valid) {
ab->qmi.target.chip_id = resp.chip_info.chip_id;
ab->qmi.target.chip_family = resp.chip_info.chip_family;
}
if (resp.board_info_valid)
ab->qmi.target.board_id = resp.board_info.board_id;
else
ab->qmi.target.board_id = 0xFF;
if (resp.soc_info_valid)
ab->qmi.target.soc_id = resp.soc_info.soc_id;
if (resp.fw_version_info_valid) {
ab->qmi.target.fw_version = resp.fw_version_info.fw_version;
strlcpy(ab->qmi.target.fw_build_timestamp,
resp.fw_version_info.fw_build_timestamp,
sizeof(ab->qmi.target.fw_build_timestamp));
}
if (resp.fw_build_id_valid)
strlcpy(ab->qmi.target.fw_build_id, resp.fw_build_id,
sizeof(ab->qmi.target.fw_build_id));
ath11k_info(ab, "chip_id 0x%x chip_family 0x%x board_id 0x%x soc_id 0x%x\n",
ab->qmi.target.chip_id, ab->qmi.target.chip_family,
ab->qmi.target.board_id, ab->qmi.target.soc_id);
ath11k_info(ab, "fw_version 0x%x fw_build_timestamp %s fw_build_id %s",
ab->qmi.target.fw_version,
ab->qmi.target.fw_build_timestamp,
ab->qmi.target.fw_build_id);
out:
return ret;
}
static int
ath11k_qmi_prepare_bdf_download(struct ath11k_base *ab, int type,
struct qmi_wlanfw_bdf_download_req_msg_v01 *req,
void __iomem *bdf_addr)
{
const struct firmware *fw_entry;
struct ath11k_board_data bd;
u32 fw_size;
int ret;
switch (type) {
case ATH11K_QMI_FILE_TYPE_BDF_GOLDEN:
memset(&bd, 0, sizeof(bd));
ret = ath11k_core_fetch_bdf(ab, &bd);
if (ret) {
ath11k_warn(ab, "qmi failed to load BDF\n");
return ret;
}
fw_size = min_t(u32, ab->hw_params.fw.board_size, bd.len);
memcpy_toio(bdf_addr, bd.data, fw_size);
ath11k_core_free_bdf(ab, &bd);
break;
case ATH11K_QMI_FILE_TYPE_CALDATA:
fw_entry = ath11k_core_firmware_request(ab, ATH11K_DEFAULT_CAL_FILE);
if (IS_ERR(fw_entry)) {
ret = PTR_ERR(fw_entry);
ath11k_warn(ab, "failed to load %s: %d\n",
ATH11K_DEFAULT_CAL_FILE, ret);
return ret;
}
fw_size = min_t(u32, ab->hw_params.fw.board_size,
fw_entry->size);
memcpy_toio(bdf_addr + ATH11K_QMI_CALDATA_OFFSET,
fw_entry->data, fw_size);
release_firmware(fw_entry);
break;
default:
return -EINVAL;
}
req->total_size = fw_size;
return 0;
}
static int ath11k_qmi_load_bdf_fixed_addr(struct ath11k_base *ab)
{
struct qmi_wlanfw_bdf_download_req_msg_v01 *req;
struct qmi_wlanfw_bdf_download_resp_msg_v01 resp;
struct qmi_txn txn = {};
void __iomem *bdf_addr = NULL;
int type, ret;
req = kzalloc(sizeof(*req), GFP_KERNEL);
if (!req)
return -ENOMEM;
memset(&resp, 0, sizeof(resp));
bdf_addr = ioremap(ab->hw_params.bdf_addr, ATH11K_QMI_BDF_MAX_SIZE);
if (!bdf_addr) {
ath11k_warn(ab, "qmi ioremap error for BDF\n");
ret = -EIO;
goto out;
}
for (type = 0; type < ATH11K_QMI_MAX_FILE_TYPE; type++) {
req->valid = 1;
req->file_id_valid = 1;
req->file_id = ab->qmi.target.board_id;
req->total_size_valid = 1;
req->seg_id_valid = 1;
req->seg_id = type;
req->data_valid = 0;
req->data_len = ATH11K_QMI_MAX_BDF_FILE_NAME_SIZE;
req->bdf_type = 0;
req->bdf_type_valid = 0;
req->end_valid = 1;
req->end = 1;
ret = ath11k_qmi_prepare_bdf_download(ab, type, req, bdf_addr);
if (ret < 0)
goto out_qmi_bdf;
ret = qmi_txn_init(&ab->qmi.handle, &txn,
qmi_wlanfw_bdf_download_resp_msg_v01_ei,
&resp);
if (ret < 0)
goto out_qmi_bdf;
ret = qmi_send_request(&ab->qmi.handle, NULL, &txn,
QMI_WLANFW_BDF_DOWNLOAD_REQ_V01,
QMI_WLANFW_BDF_DOWNLOAD_REQ_MSG_V01_MAX_LEN,
qmi_wlanfw_bdf_download_req_msg_v01_ei, req);
if (ret < 0) {
qmi_txn_cancel(&txn);
goto out_qmi_bdf;
}
ret = qmi_txn_wait(&txn, msecs_to_jiffies(ATH11K_QMI_WLANFW_TIMEOUT_MS));
if (ret < 0)
goto out_qmi_bdf;
if (resp.resp.result != QMI_RESULT_SUCCESS_V01) {
ath11k_warn(ab, "qmi BDF download failed, result: %d, err: %d\n",
resp.resp.result, resp.resp.error);
ret = -EINVAL;
goto out_qmi_bdf;
}
}
out_qmi_bdf:
iounmap(bdf_addr);
out:
kfree(req);
return ret;
}
static int ath11k_qmi_load_bdf_qmi(struct ath11k_base *ab)
{
struct qmi_wlanfw_bdf_download_req_msg_v01 *req;
struct qmi_wlanfw_bdf_download_resp_msg_v01 resp;
struct ath11k_board_data bd;
unsigned int remaining;
struct qmi_txn txn = {};
int ret;
const u8 *temp;
int bdf_type;
req = kzalloc(sizeof(*req), GFP_KERNEL);
if (!req)
return -ENOMEM;
memset(&resp, 0, sizeof(resp));
memset(&bd, 0, sizeof(bd));
ret = ath11k_core_fetch_bdf(ab, &bd);
if (ret) {
ath11k_warn(ab, "qmi failed to load bdf:\n");
goto out;
}
temp = bd.data;
remaining = bd.len;
if (bd.len >= SELFMAG && memcmp(bd.data, ELFMAG, SELFMAG) == 0)
bdf_type = ATH11K_QMI_BDF_TYPE_ELF;
else
bdf_type = ATH11K_QMI_BDF_TYPE_BIN;
ath11k_dbg(ab, ATH11K_DBG_QMI, "qmi bdf_type %d\n", bdf_type);
while (remaining) {
req->valid = 1;
req->file_id_valid = 1;
req->file_id = ab->qmi.target.board_id;
req->total_size_valid = 1;
req->total_size = bd.len;
req->seg_id_valid = 1;
req->data_valid = 1;
req->data_len = ATH11K_QMI_MAX_BDF_FILE_NAME_SIZE;
req->bdf_type = bdf_type;
req->bdf_type_valid = 1;
req->end_valid = 1;
req->end = 0;
if (remaining > QMI_WLANFW_MAX_DATA_SIZE_V01) {
req->data_len = QMI_WLANFW_MAX_DATA_SIZE_V01;
} else {
req->data_len = remaining;
req->end = 1;
}
memcpy(req->data, temp, req->data_len);
ret = qmi_txn_init(&ab->qmi.handle, &txn,
qmi_wlanfw_bdf_download_resp_msg_v01_ei,
&resp);
if (ret < 0)
goto out_qmi_bdf;
ret = qmi_send_request(&ab->qmi.handle, NULL, &txn,
QMI_WLANFW_BDF_DOWNLOAD_REQ_V01,
QMI_WLANFW_BDF_DOWNLOAD_REQ_MSG_V01_MAX_LEN,
qmi_wlanfw_bdf_download_req_msg_v01_ei, req);
if (ret < 0) {
qmi_txn_cancel(&txn);
goto out_qmi_bdf;
}
ret = qmi_txn_wait(&txn, msecs_to_jiffies(ATH11K_QMI_WLANFW_TIMEOUT_MS));
if (ret < 0)
goto out_qmi_bdf;
if (resp.resp.result != QMI_RESULT_SUCCESS_V01) {
ath11k_warn(ab, "qmi BDF download failed, result: %d, err: %d\n",
resp.resp.result, resp.resp.error);
ret = resp.resp.result;
goto out_qmi_bdf;
}
remaining -= req->data_len;
temp += req->data_len;
req->seg_id++;
}
out_qmi_bdf:
ath11k_core_free_bdf(ab, &bd);
out:
kfree(req);
return ret;
}
static int ath11k_qmi_m3_load(struct ath11k_base *ab)
{
struct m3_mem_region *m3_mem = &ab->qmi.m3_mem;
const struct firmware *fw;
char path[100];
int ret;
if (m3_mem->vaddr || m3_mem->size)
return 0;
fw = ath11k_core_firmware_request(ab, ATH11K_M3_FILE);
if (IS_ERR(fw)) {
ret = PTR_ERR(fw);
ath11k_core_create_firmware_path(ab, ATH11K_M3_FILE,
path, sizeof(path));
ath11k_err(ab, "failed to load %s: %d\n", path, ret);
return ret;
}
m3_mem->vaddr = dma_alloc_coherent(ab->dev,
fw->size, &m3_mem->paddr,
GFP_KERNEL);
if (!m3_mem->vaddr) {
ath11k_err(ab, "failed to allocate memory for M3 with size %zu\n",
fw->size);
release_firmware(fw);
return -ENOMEM;
}
memcpy(m3_mem->vaddr, fw->data, fw->size);
m3_mem->size = fw->size;
release_firmware(fw);
return 0;
}
static void ath11k_qmi_m3_free(struct ath11k_base *ab)
{
struct m3_mem_region *m3_mem = &ab->qmi.m3_mem;
if (!ab->bus_params.m3_fw_support || !m3_mem->vaddr)
return;
dma_free_coherent(ab->dev, m3_mem->size,
m3_mem->vaddr, m3_mem->paddr);
m3_mem->vaddr = NULL;
}
static int ath11k_qmi_wlanfw_m3_info_send(struct ath11k_base *ab)
{
struct m3_mem_region *m3_mem = &ab->qmi.m3_mem;
struct qmi_wlanfw_m3_info_req_msg_v01 req;
struct qmi_wlanfw_m3_info_resp_msg_v01 resp;
struct qmi_txn txn = {};
int ret = 0;
memset(&req, 0, sizeof(req));
memset(&resp, 0, sizeof(resp));
if (ab->bus_params.m3_fw_support) {
ret = ath11k_qmi_m3_load(ab);
if (ret) {
ath11k_err(ab, "failed to load m3 firmware: %d", ret);
return ret;
}
req.addr = m3_mem->paddr;
req.size = m3_mem->size;
} else {
req.addr = 0;
req.size = 0;
}
ret = qmi_txn_init(&ab->qmi.handle, &txn,
qmi_wlanfw_m3_info_resp_msg_v01_ei, &resp);
if (ret < 0)
goto out;
ret = qmi_send_request(&ab->qmi.handle, NULL, &txn,
QMI_WLANFW_M3_INFO_REQ_V01,
QMI_WLANFW_M3_INFO_REQ_MSG_V01_MAX_MSG_LEN,
qmi_wlanfw_m3_info_req_msg_v01_ei, &req);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to send M3 information request, err = %d\n",
ret);
goto out;
}
ret = qmi_txn_wait(&txn, msecs_to_jiffies(ATH11K_QMI_WLANFW_TIMEOUT_MS));
if (ret < 0) {
ath11k_warn(ab, "qmi failed M3 information request %d\n", ret);
goto out;
}
if (resp.resp.result != QMI_RESULT_SUCCESS_V01) {
ath11k_warn(ab, "qmi M3 info request failed, result: %d, err: %d\n",
resp.resp.result, resp.resp.error);
ret = -EINVAL;
goto out;
}
out:
return ret;
}
static int ath11k_qmi_wlanfw_mode_send(struct ath11k_base *ab,
u32 mode)
{
struct qmi_wlanfw_wlan_mode_req_msg_v01 req;
struct qmi_wlanfw_wlan_mode_resp_msg_v01 resp;
struct qmi_txn txn = {};
int ret = 0;
memset(&req, 0, sizeof(req));
memset(&resp, 0, sizeof(resp));
req.mode = mode;
req.hw_debug_valid = 1;
req.hw_debug = 0;
ret = qmi_txn_init(&ab->qmi.handle, &txn,
qmi_wlanfw_wlan_mode_resp_msg_v01_ei, &resp);
if (ret < 0)
goto out;
ret = qmi_send_request(&ab->qmi.handle, NULL, &txn,
QMI_WLANFW_WLAN_MODE_REQ_V01,
QMI_WLANFW_WLAN_MODE_REQ_MSG_V01_MAX_LEN,
qmi_wlanfw_wlan_mode_req_msg_v01_ei, &req);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to send mode request, mode: %d, err = %d\n",
mode, ret);
goto out;
}
ret = qmi_txn_wait(&txn, msecs_to_jiffies(ATH11K_QMI_WLANFW_TIMEOUT_MS));
if (ret < 0) {
if (mode == ATH11K_FIRMWARE_MODE_OFF && ret == -ENETRESET) {
ath11k_warn(ab, "WLFW service is dis-connected\n");
return 0;
}
ath11k_warn(ab, "qmi failed set mode request, mode: %d, err = %d\n",
mode, ret);
goto out;
}
if (resp.resp.result != QMI_RESULT_SUCCESS_V01) {
ath11k_warn(ab, "Mode request failed, mode: %d, result: %d err: %d\n",
mode, resp.resp.result, resp.resp.error);
ret = -EINVAL;
goto out;
}
out:
return ret;
}
static int ath11k_qmi_wlanfw_wlan_cfg_send(struct ath11k_base *ab)
{
struct qmi_wlanfw_wlan_cfg_req_msg_v01 *req;
struct qmi_wlanfw_wlan_cfg_resp_msg_v01 resp;
struct ce_pipe_config *ce_cfg;
struct service_to_pipe *svc_cfg;
struct qmi_txn txn = {};
int ret = 0, pipe_num;
ce_cfg = (struct ce_pipe_config *)ab->qmi.ce_cfg.tgt_ce;
svc_cfg = (struct service_to_pipe *)ab->qmi.ce_cfg.svc_to_ce_map;
req = kzalloc(sizeof(*req), GFP_KERNEL);
if (!req)
return -ENOMEM;
memset(&resp, 0, sizeof(resp));
req->host_version_valid = 1;
strlcpy(req->host_version, ATH11K_HOST_VERSION_STRING,
sizeof(req->host_version));
req->tgt_cfg_valid = 1;
/* This is number of CE configs */
req->tgt_cfg_len = ab->qmi.ce_cfg.tgt_ce_len;
for (pipe_num = 0; pipe_num < req->tgt_cfg_len ; pipe_num++) {
req->tgt_cfg[pipe_num].pipe_num = ce_cfg[pipe_num].pipenum;
req->tgt_cfg[pipe_num].pipe_dir = ce_cfg[pipe_num].pipedir;
req->tgt_cfg[pipe_num].nentries = ce_cfg[pipe_num].nentries;
req->tgt_cfg[pipe_num].nbytes_max = ce_cfg[pipe_num].nbytes_max;
req->tgt_cfg[pipe_num].flags = ce_cfg[pipe_num].flags;
}
req->svc_cfg_valid = 1;
/* This is number of Service/CE configs */
req->svc_cfg_len = ab->qmi.ce_cfg.svc_to_ce_map_len;
for (pipe_num = 0; pipe_num < req->svc_cfg_len; pipe_num++) {
req->svc_cfg[pipe_num].service_id = svc_cfg[pipe_num].service_id;
req->svc_cfg[pipe_num].pipe_dir = svc_cfg[pipe_num].pipedir;
req->svc_cfg[pipe_num].pipe_num = svc_cfg[pipe_num].pipenum;
}
req->shadow_reg_valid = 0;
/* set shadow v2 configuration */
if (ab->hw_params.supports_shadow_regs) {
req->shadow_reg_v2_valid = 1;
req->shadow_reg_v2_len = min_t(u32,
ab->qmi.ce_cfg.shadow_reg_v2_len,
QMI_WLANFW_MAX_NUM_SHADOW_REG_V2_V01);
memcpy(&req->shadow_reg_v2, ab->qmi.ce_cfg.shadow_reg_v2,
sizeof(u32) * req->shadow_reg_v2_len);
} else {
req->shadow_reg_v2_valid = 0;
}
ret = qmi_txn_init(&ab->qmi.handle, &txn,
qmi_wlanfw_wlan_cfg_resp_msg_v01_ei, &resp);
if (ret < 0)
goto out;
ret = qmi_send_request(&ab->qmi.handle, NULL, &txn,
QMI_WLANFW_WLAN_CFG_REQ_V01,
QMI_WLANFW_WLAN_CFG_REQ_MSG_V01_MAX_LEN,
qmi_wlanfw_wlan_cfg_req_msg_v01_ei, req);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to send wlan config request, err = %d\n",
ret);
goto out;
}
ret = qmi_txn_wait(&txn, msecs_to_jiffies(ATH11K_QMI_WLANFW_TIMEOUT_MS));
if (ret < 0) {
ath11k_warn(ab, "qmi failed wlan config request, err = %d\n", ret);
goto out;
}
if (resp.resp.result != QMI_RESULT_SUCCESS_V01) {
ath11k_warn(ab, "qmi wlan config request failed, result: %d, err: %d\n",
resp.resp.result, resp.resp.error);
ret = -EINVAL;
goto out;
}
out:
kfree(req);
return ret;
}
void ath11k_qmi_firmware_stop(struct ath11k_base *ab)
{
int ret;
ret = ath11k_qmi_wlanfw_mode_send(ab, ATH11K_FIRMWARE_MODE_OFF);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to send wlan mode off\n");
return;
}
}
int ath11k_qmi_firmware_start(struct ath11k_base *ab,
u32 mode)
{
int ret;
ret = ath11k_qmi_wlanfw_wlan_cfg_send(ab);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to send wlan cfg:%d\n", ret);
return ret;
}
ret = ath11k_qmi_wlanfw_mode_send(ab, mode);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to send wlan fw mode:%d\n", ret);
return ret;
}
return 0;
}
static int
ath11k_qmi_driver_event_post(struct ath11k_qmi *qmi,
enum ath11k_qmi_event_type type,
void *data)
{
struct ath11k_qmi_driver_event *event;
event = kzalloc(sizeof(*event), GFP_ATOMIC);
if (!event)
return -ENOMEM;
event->type = type;
event->data = data;
spin_lock(&qmi->event_lock);
list_add_tail(&event->list, &qmi->event_list);
spin_unlock(&qmi->event_lock);
queue_work(qmi->event_wq, &qmi->event_work);
return 0;
}
static void ath11k_qmi_event_server_arrive(struct ath11k_qmi *qmi)
{
struct ath11k_base *ab = qmi->ab;
int ret;
ret = ath11k_qmi_fw_ind_register_send(ab);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to send FW indication QMI:%d\n", ret);
return;
}
ret = ath11k_qmi_host_cap_send(ab);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to send host cap QMI:%d\n", ret);
return;
}
}
static void ath11k_qmi_event_mem_request(struct ath11k_qmi *qmi)
{
struct ath11k_base *ab = qmi->ab;
int ret;
ret = ath11k_qmi_respond_fw_mem_request(ab);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to respond fw mem req:%d\n", ret);
return;
}
}
static void ath11k_qmi_event_load_bdf(struct ath11k_qmi *qmi)
{
struct ath11k_base *ab = qmi->ab;
int ret;
ret = ath11k_qmi_request_target_cap(ab);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to req target capabilities:%d\n", ret);
return;
}
if (ab->bus_params.fixed_bdf_addr)
ret = ath11k_qmi_load_bdf_fixed_addr(ab);
else
ret = ath11k_qmi_load_bdf_qmi(ab);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to load board data file:%d\n", ret);
return;
}
ret = ath11k_qmi_wlanfw_m3_info_send(ab);
if (ret < 0) {
ath11k_warn(ab, "qmi failed to send m3 info req:%d\n", ret);
return;
}
}
static void ath11k_qmi_msg_mem_request_cb(struct qmi_handle *qmi_hdl,
struct sockaddr_qrtr *sq,
struct qmi_txn *txn,
const void *data)
{
struct ath11k_qmi *qmi = container_of(qmi_hdl, struct ath11k_qmi, handle);
struct ath11k_base *ab = qmi->ab;
const struct qmi_wlanfw_request_mem_ind_msg_v01 *msg = data;
int i, ret;
ath11k_dbg(ab, ATH11K_DBG_QMI, "qmi firmware request memory request\n");
if (msg->mem_seg_len == 0 ||
msg->mem_seg_len > ATH11K_QMI_WLANFW_MAX_NUM_MEM_SEG_V01)
ath11k_warn(ab, "Invalid memory segment length: %u\n",
msg->mem_seg_len);
ab->qmi.mem_seg_count = msg->mem_seg_len;
for (i = 0; i < qmi->mem_seg_count ; i++) {
ab->qmi.target_mem[i].type = msg->mem_seg[i].type;
ab->qmi.target_mem[i].size = msg->mem_seg[i].size;
ath11k_dbg(ab, ATH11K_DBG_QMI, "qmi mem seg type %d size %d\n",
msg->mem_seg[i].type, msg->mem_seg[i].size);
}
if (ab->bus_params.fixed_mem_region) {
ret = ath11k_qmi_assign_target_mem_chunk(ab);
if (ret) {
ath11k_warn(ab, "qmi failed to assign target memory: %d\n",
ret);
return;
}
} else if (msg->mem_seg_len > 2) {
ret = ath11k_qmi_alloc_target_mem_chunk(ab);
if (ret) {
ath11k_warn(ab, "qmi failed to alloc target memory: %d\n",
ret);
return;
}
}
ath11k_qmi_driver_event_post(qmi, ATH11K_QMI_EVENT_REQUEST_MEM, NULL);
}
static void ath11k_qmi_msg_mem_ready_cb(struct qmi_handle *qmi_hdl,
struct sockaddr_qrtr *sq,
struct qmi_txn *txn,
const void *decoded)
{
struct ath11k_qmi *qmi = container_of(qmi_hdl, struct ath11k_qmi, handle);
struct ath11k_base *ab = qmi->ab;
ath11k_dbg(ab, ATH11K_DBG_QMI, "qmi firmware memory ready indication\n");
ath11k_qmi_driver_event_post(qmi, ATH11K_QMI_EVENT_FW_MEM_READY, NULL);
}
static void ath11k_qmi_msg_fw_ready_cb(struct qmi_handle *qmi_hdl,
struct sockaddr_qrtr *sq,
struct qmi_txn *txn,
const void *decoded)
{
struct ath11k_qmi *qmi = container_of(qmi_hdl, struct ath11k_qmi, handle);
struct ath11k_base *ab = qmi->ab;
ath11k_dbg(ab, ATH11K_DBG_QMI, "qmi firmware ready\n");
ath11k_qmi_driver_event_post(qmi, ATH11K_QMI_EVENT_FW_READY, NULL);
}
static void ath11k_qmi_msg_cold_boot_cal_done_cb(struct qmi_handle *qmi,
struct sockaddr_qrtr *sq,
struct qmi_txn *txn,
const void *decoded)
{
}
static const struct qmi_msg_handler ath11k_qmi_msg_handlers[] = {
{
.type = QMI_INDICATION,
.msg_id = QMI_WLFW_REQUEST_MEM_IND_V01,
.ei = qmi_wlanfw_request_mem_ind_msg_v01_ei,
.decoded_size = sizeof(struct qmi_wlanfw_request_mem_ind_msg_v01),
.fn = ath11k_qmi_msg_mem_request_cb,
},
{
.type = QMI_INDICATION,
.msg_id = QMI_WLFW_FW_MEM_READY_IND_V01,
.ei = qmi_wlanfw_mem_ready_ind_msg_v01_ei,
.decoded_size = sizeof(struct qmi_wlanfw_fw_mem_ready_ind_msg_v01),
.fn = ath11k_qmi_msg_mem_ready_cb,
},
{
.type = QMI_INDICATION,
.msg_id = QMI_WLFW_FW_READY_IND_V01,
.ei = qmi_wlanfw_fw_ready_ind_msg_v01_ei,
.decoded_size = sizeof(struct qmi_wlanfw_fw_ready_ind_msg_v01),
.fn = ath11k_qmi_msg_fw_ready_cb,
},
{
.type = QMI_INDICATION,
.msg_id = QMI_WLFW_COLD_BOOT_CAL_DONE_IND_V01,
.ei = qmi_wlanfw_cold_boot_cal_done_ind_msg_v01_ei,
.decoded_size =
sizeof(struct qmi_wlanfw_fw_cold_cal_done_ind_msg_v01),
.fn = ath11k_qmi_msg_cold_boot_cal_done_cb,
},
};
static int ath11k_qmi_ops_new_server(struct qmi_handle *qmi_hdl,
struct qmi_service *service)
{
struct ath11k_qmi *qmi = container_of(qmi_hdl, struct ath11k_qmi, handle);
struct ath11k_base *ab = qmi->ab;
struct sockaddr_qrtr *sq = &qmi->sq;
int ret;
sq->sq_family = AF_QIPCRTR;
sq->sq_node = service->node;
sq->sq_port = service->port;
ret = kernel_connect(qmi_hdl->sock, (struct sockaddr *)sq,
sizeof(*sq), 0);
if (ret) {
ath11k_warn(ab, "qmi failed to connect to remote service %d\n", ret);
return ret;
}
ath11k_dbg(ab, ATH11K_DBG_QMI, "qmi wifi fw qmi service connected\n");
ath11k_qmi_driver_event_post(qmi, ATH11K_QMI_EVENT_SERVER_ARRIVE, NULL);
return 0;
}
static void ath11k_qmi_ops_del_server(struct qmi_handle *qmi_hdl,
struct qmi_service *service)
{
struct ath11k_qmi *qmi = container_of(qmi_hdl, struct ath11k_qmi, handle);
struct ath11k_base *ab = qmi->ab;
ath11k_dbg(ab, ATH11K_DBG_QMI, "qmi wifi fw del server\n");
ath11k_qmi_driver_event_post(qmi, ATH11K_QMI_EVENT_SERVER_EXIT, NULL);
}
static const struct qmi_ops ath11k_qmi_ops = {
.new_server = ath11k_qmi_ops_new_server,
.del_server = ath11k_qmi_ops_del_server,
};
static void ath11k_qmi_driver_event_work(struct work_struct *work)
{
struct ath11k_qmi *qmi = container_of(work, struct ath11k_qmi,
event_work);
struct ath11k_qmi_driver_event *event;
struct ath11k_base *ab = qmi->ab;
spin_lock(&qmi->event_lock);
while (!list_empty(&qmi->event_list)) {
event = list_first_entry(&qmi->event_list,
struct ath11k_qmi_driver_event, list);
list_del(&event->list);
spin_unlock(&qmi->event_lock);
if (test_bit(ATH11K_FLAG_UNREGISTERING, &ab->dev_flags))
return;
switch (event->type) {
case ATH11K_QMI_EVENT_SERVER_ARRIVE:
ath11k_qmi_event_server_arrive(qmi);
break;
case ATH11K_QMI_EVENT_SERVER_EXIT:
set_bit(ATH11K_FLAG_CRASH_FLUSH, &ab->dev_flags);
set_bit(ATH11K_FLAG_RECOVERY, &ab->dev_flags);
break;
case ATH11K_QMI_EVENT_REQUEST_MEM:
ath11k_qmi_event_mem_request(qmi);
break;
case ATH11K_QMI_EVENT_FW_MEM_READY:
ath11k_qmi_event_load_bdf(qmi);
break;
case ATH11K_QMI_EVENT_FW_READY:
if (test_bit(ATH11K_FLAG_REGISTERED, &ab->dev_flags)) {
ath11k_hal_dump_srng_stats(ab);
queue_work(ab->workqueue, &ab->restart_work);
break;
}
ath11k_core_qmi_firmware_ready(ab);
ab->qmi.cal_done = 1;
set_bit(ATH11K_FLAG_REGISTERED, &ab->dev_flags);
break;
case ATH11K_QMI_EVENT_COLD_BOOT_CAL_DONE:
break;
default:
ath11k_warn(ab, "invalid event type: %d", event->type);
break;
}
kfree(event);
spin_lock(&qmi->event_lock);
}
spin_unlock(&qmi->event_lock);
}
int ath11k_qmi_init_service(struct ath11k_base *ab)
{
int ret;
memset(&ab->qmi.target, 0, sizeof(struct target_info));
memset(&ab->qmi.target_mem, 0, sizeof(struct target_mem_chunk));
ab->qmi.ab = ab;
ab->qmi.target_mem_mode = ATH11K_QMI_TARGET_MEM_MODE_DEFAULT;
ret = qmi_handle_init(&ab->qmi.handle, ATH11K_QMI_RESP_LEN_MAX,
&ath11k_qmi_ops, ath11k_qmi_msg_handlers);
if (ret < 0) {
ath11k_warn(ab, "failed to initialize qmi handle\n");
return ret;
}
ab->qmi.event_wq = alloc_workqueue("ath11k_qmi_driver_event",
WQ_UNBOUND, 1);
if (!ab->qmi.event_wq) {
ath11k_err(ab, "failed to allocate workqueue\n");
return -EFAULT;
}
INIT_LIST_HEAD(&ab->qmi.event_list);
spin_lock_init(&ab->qmi.event_lock);
INIT_WORK(&ab->qmi.event_work, ath11k_qmi_driver_event_work);
ret = qmi_add_lookup(&ab->qmi.handle, ATH11K_QMI_WLFW_SERVICE_ID_V01,
ATH11K_QMI_WLFW_SERVICE_VERS_V01,
ab->qmi.service_ins_id);
if (ret < 0) {
ath11k_warn(ab, "failed to add qmi lookup\n");
destroy_workqueue(ab->qmi.event_wq);
return ret;
}
return ret;
}
void ath11k_qmi_deinit_service(struct ath11k_base *ab)
{
qmi_handle_release(&ab->qmi.handle);
cancel_work_sync(&ab->qmi.event_work);
destroy_workqueue(ab->qmi.event_wq);
ath11k_qmi_m3_free(ab);
ath11k_qmi_free_target_mem_chunk(ab);
}
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