Skip to content

L
linux
Commit b5573474 authored by M Chetan Kumar's avatar M Chetan Kumar Committed by David S. Miller
Browse files
Options

net: wwan: iosm: fw flashing support 

Implements protocol for fw flashing and PSI injection for
coredump collection.
Signed-off-by: default avatarM Chetan Kumar <m.chetan.kumar@linux.intel.com>
Signed-off-by: default avatarDavid S. Miller <davem@davemloft.net>
parent 4dcd183f
Hide whitespace changes
Inline Side-by-side
Showing with 832 additions and 0 deletions
drivers/net/wwan/iosm/iosm_ipc_flash.c 0 → 100644
View file @ b5573474
// SPDX-License-Identifier: GPL-2.0-only
/*
* Copyright (C) 2020-2021 Intel Corporation.
*/
#include "iosm_ipc_coredump.h"
#include "iosm_ipc_devlink.h"
#include "iosm_ipc_flash.h"
/* This function will pack the data to be sent to the modem using the
* payload, payload length and pack id
*/
static int ipc_flash_proc_format_ebl_pack(struct iosm_flash_data *flash_req,
u32 pack_length, u16 pack_id,
u8 *payload, u32 payload_length)
{
u16 checksum = pack_id;
u32 i;
if (payload_length + IOSM_EBL_HEAD_SIZE > pack_length)
return -EINVAL;
flash_req->pack_id = cpu_to_le16(pack_id);
flash_req->msg_length = cpu_to_le32(payload_length);
checksum += (payload_length >> IOSM_EBL_PAYL_SHIFT) +
(payload_length & IOSM_EBL_CKSM);
for (i = 0; i < payload_length; i++)
checksum += payload[i];
flash_req->checksum = cpu_to_le16(checksum);
return 0;
}
/* validate the response received from modem and
* check the type of errors received
*/
static int ipc_flash_proc_check_ebl_rsp(void *hdr_rsp, void *payload_rsp)
{
struct iosm_ebl_error *err_info = payload_rsp;
u16 *rsp_code = hdr_rsp;
int res = 0;
u32 i;
if (*rsp_code == IOSM_EBL_RSP_BUFF) {
for (i = 0; i < IOSM_MAX_ERRORS; i++) {
if (!err_info->error[i].error_code) {
pr_err("EBL: error_class = %d, error_code = %d",
err_info->error[i].error_class,
err_info->error[i].error_code);
}
}
res = -EINVAL;
}
return res;
}
/* Send data to the modem */
static int ipc_flash_send_data(struct iosm_devlink *ipc_devlink, u32 size,
u16 pack_id, u8 *payload, u32 payload_length)
{
struct iosm_flash_data flash_req;
int ret;
ret = ipc_flash_proc_format_ebl_pack(&flash_req, size,
pack_id, payload, payload_length);
if (ret) {
dev_err(ipc_devlink->dev, "EBL2 pack failed for pack_id:%d",
pack_id);
goto ipc_free_payload;
}
ret = ipc_imem_sys_devlink_write(ipc_devlink, (u8 *)&flash_req,
IOSM_EBL_HEAD_SIZE);
if (ret) {
dev_err(ipc_devlink->dev, "EBL Header write failed for Id:%x",
pack_id);
goto ipc_free_payload;
}
ret = ipc_imem_sys_devlink_write(ipc_devlink, payload, payload_length);
if (ret) {
dev_err(ipc_devlink->dev, "EBL Payload write failed for Id:%x",
pack_id);
}
ipc_free_payload:
return ret;
}
/* Allocate flash channel and read LER data from modem */
int ipc_flash_link_establish(struct iosm_imem *ipc_imem)
{
u8 ler_data[IOSM_LER_RSP_SIZE];
u32 bytes_read;
/* Allocate channel for flashing/cd collection */
ipc_imem->ipc_devlink->devlink_sio.channel =
ipc_imem_sys_devlink_open(ipc_imem);
if (!ipc_imem->ipc_devlink->devlink_sio.channel)
goto chl_open_fail;
if (ipc_imem_sys_devlink_read(ipc_imem->ipc_devlink, ler_data,
IOSM_LER_RSP_SIZE, &bytes_read))
goto devlink_read_fail;
if (bytes_read != IOSM_LER_RSP_SIZE)
goto devlink_read_fail;
return 0;
devlink_read_fail:
ipc_imem_sys_devlink_close(ipc_imem->ipc_devlink);
chl_open_fail:
return -EIO;
}
/* Receive data from the modem */
static int ipc_flash_receive_data(struct iosm_devlink *ipc_devlink, u32 size,
u8 *mdm_rsp)
{
u8 mdm_rsp_hdr[IOSM_EBL_HEAD_SIZE];
u32 bytes_read;
int ret;
ret = ipc_imem_sys_devlink_read(ipc_devlink, mdm_rsp_hdr,
IOSM_EBL_HEAD_SIZE, &bytes_read);
if (ret) {
dev_err(ipc_devlink->dev, "EBL rsp to read %d bytes failed",
IOSM_EBL_HEAD_SIZE);
goto ipc_flash_recv_err;
}
if (bytes_read != IOSM_EBL_HEAD_SIZE) {
ret = -EINVAL;
goto ipc_flash_recv_err;
}
ret = ipc_imem_sys_devlink_read(ipc_devlink, mdm_rsp, size,
&bytes_read);
if (ret) {
dev_err(ipc_devlink->dev, "EBL rsp to read %d bytes failed",
size);
goto ipc_flash_recv_err;
}
if (bytes_read != size) {
ret = -EINVAL;
goto ipc_flash_recv_err;
}
ret = ipc_flash_proc_check_ebl_rsp(mdm_rsp_hdr + 2, mdm_rsp);
ipc_flash_recv_err:
return ret;
}
/* Function to send command to modem and receive response */
static int ipc_flash_send_receive(struct iosm_devlink *ipc_devlink, u16 pack_id,
u8 *payload, u32 payload_length, u8 *mdm_rsp)
{
size_t frame_len = IOSM_EBL_DW_PACK_SIZE;
int ret;
if (pack_id == FLASH_SET_PROT_CONF)
frame_len = IOSM_EBL_W_PACK_SIZE;
ret = ipc_flash_send_data(ipc_devlink, frame_len, pack_id, payload,
payload_length);
if (ret)
goto ipc_flash_send_rcv;
ret = ipc_flash_receive_data(ipc_devlink,
frame_len - IOSM_EBL_HEAD_SIZE, mdm_rsp);
ipc_flash_send_rcv:
return ret;
}
/* Set the capabilities for the EBL */
int ipc_flash_boot_set_capabilities(struct iosm_devlink *ipc_devlink,
u8 *mdm_rsp)
{
int ret;
ipc_devlink->ebl_ctx.ebl_sw_info_version =
ipc_devlink->ebl_ctx.m_ebl_resp[EBL_RSP_SW_INFO_VER];
ipc_devlink->ebl_ctx.m_ebl_resp[EBL_SKIP_ERASE] = IOSM_CAP_NOT_ENHANCED;
ipc_devlink->ebl_ctx.m_ebl_resp[EBL_SKIP_CRC] = IOSM_CAP_NOT_ENHANCED;
if (ipc_devlink->ebl_ctx.m_ebl_resp[EBL_CAPS_FLAG] &
IOSM_CAP_USE_EXT_CAP) {
if (ipc_devlink->param.erase_full_flash)
ipc_devlink->ebl_ctx.m_ebl_resp[EBL_OOS_CONFIG] &=
~((u8)IOSM_EXT_CAP_ERASE_ALL);
else
ipc_devlink->ebl_ctx.m_ebl_resp[EBL_OOS_CONFIG] &=
~((u8)IOSM_EXT_CAP_COMMIT_ALL);
ipc_devlink->ebl_ctx.m_ebl_resp[EBL_EXT_CAPS_HANDLED] =
IOSM_CAP_USE_EXT_CAP;
}
/* Write back the EBL capability to modem
* Request Set Protcnf command
*/
ret = ipc_flash_send_receive(ipc_devlink, FLASH_SET_PROT_CONF,
ipc_devlink->ebl_ctx.m_ebl_resp,
IOSM_EBL_RSP_SIZE, mdm_rsp);
return ret;
}
/* Read the SWID type and SWID value from the EBL */
int ipc_flash_read_swid(struct iosm_devlink *ipc_devlink, u8 *mdm_rsp)
{
struct iosm_flash_msg_control cmd_msg;
struct iosm_swid_table *swid;
char ebl_swid[IOSM_SWID_STR];
int ret;
if (ipc_devlink->ebl_ctx.ebl_sw_info_version !=
IOSM_EXT_CAP_SWID_OOS_PACK)
return -EINVAL;
cmd_msg.action = cpu_to_le32(FLASH_OOSC_ACTION_READ);
cmd_msg.type = cpu_to_le32(FLASH_OOSC_TYPE_SWID_TABLE);
cmd_msg.length = cpu_to_le32(IOSM_MSG_LEN_ARG);
cmd_msg.arguments = cpu_to_le32(IOSM_MSG_LEN_ARG);
ret = ipc_flash_send_receive(ipc_devlink, FLASH_OOS_CONTROL,
(u8 *)&cmd_msg, IOSM_MDM_SEND_16, mdm_rsp);
if (ret)
goto ipc_swid_err;
cmd_msg.action = cpu_to_le32(*((u32 *)mdm_rsp));
ret = ipc_flash_send_receive(ipc_devlink, FLASH_OOS_DATA_READ,
(u8 *)&cmd_msg, IOSM_MDM_SEND_4, mdm_rsp);
if (ret)
goto ipc_swid_err;
swid = (struct iosm_swid_table *)mdm_rsp;
dev_dbg(ipc_devlink->dev, "SWID %x RF_ENGINE_ID %x", swid->sw_id_val,
swid->rf_engine_id_val);
snprintf(ebl_swid, sizeof(ebl_swid), "SWID: %x, RF_ENGINE_ID: %x",
swid->sw_id_val, swid->rf_engine_id_val);
devlink_flash_update_status_notify(ipc_devlink->devlink_ctx, ebl_swid,
NULL, 0, 0);
ipc_swid_err:
return ret;
}
/* Function to check if full erase or conditional erase was successful */
static int ipc_flash_erase_check(struct iosm_devlink *ipc_devlink, u8 *mdm_rsp)
{
int ret, count = 0;
u16 mdm_rsp_data;
/* Request Flash Erase Check */
do {
mdm_rsp_data = IOSM_MDM_SEND_DATA;
ret = ipc_flash_send_receive(ipc_devlink, FLASH_ERASE_CHECK,
(u8 *)&mdm_rsp_data,
IOSM_MDM_SEND_2, mdm_rsp);
if (ret)
goto ipc_erase_chk_err;
mdm_rsp_data = *((u16 *)mdm_rsp);
if (mdm_rsp_data > IOSM_MDM_ERASE_RSP) {
dev_err(ipc_devlink->dev,
"Flash Erase Check resp wrong 0x%04X",
mdm_rsp_data);
ret = -EINVAL;
goto ipc_erase_chk_err;
}
count++;
msleep(IOSM_FLASH_ERASE_CHECK_INTERVAL);
} while ((mdm_rsp_data != IOSM_MDM_ERASE_RSP) &&
(count < (IOSM_FLASH_ERASE_CHECK_TIMEOUT /
IOSM_FLASH_ERASE_CHECK_INTERVAL)));
if (mdm_rsp_data != IOSM_MDM_ERASE_RSP) {
dev_err(ipc_devlink->dev, "Modem erase check timeout failure!");
ret = -ETIMEDOUT;
}
ipc_erase_chk_err:
return ret;
}
/* Full erase function which will erase the nand flash through EBL command */
static int ipc_flash_full_erase(struct iosm_devlink *ipc_devlink, u8 *mdm_rsp)
{
u32 erase_address = IOSM_ERASE_START_ADDR;
struct iosm_flash_msg_control cmd_msg;
u32 erase_length = IOSM_ERASE_LEN;
int ret;
dev_dbg(ipc_devlink->dev, "Erase full nand flash");
cmd_msg.action = cpu_to_le32(FLASH_OOSC_ACTION_ERASE);
cmd_msg.type = cpu_to_le32(FLASH_OOSC_TYPE_ALL_FLASH);
cmd_msg.length = cpu_to_le32(erase_length);
cmd_msg.arguments = cpu_to_le32(erase_address);
ret = ipc_flash_send_receive(ipc_devlink, FLASH_OOS_CONTROL,
(unsigned char *)&cmd_msg,
IOSM_MDM_SEND_16, mdm_rsp);
if (ret)
goto ipc_flash_erase_err;
ipc_devlink->param.erase_full_flash_done = IOSM_SET_FLAG;
ret = ipc_flash_erase_check(ipc_devlink, mdm_rsp);
ipc_flash_erase_err:
return ret;
}
/* Logic for flashing all the Loadmaps available for individual fls file */
static int ipc_flash_download_region(struct iosm_devlink *ipc_devlink,
const struct firmware *fw, u8 *mdm_rsp)
{
__le32 reg_info[2]; /* 0th position region address, 1st position size */
char *file_ptr;
u32 rest_len;
u32 raw_len;
int ret;
file_ptr = (char *)fw->data;
reg_info[0] = cpu_to_le32(ipc_devlink->param.address);
if (!ipc_devlink->param.erase_full_flash_done) {
reg_info[1] = cpu_to_le32(ipc_devlink->param.address +
fw->size - 2);
ret = ipc_flash_send_receive(ipc_devlink, FLASH_ERASE_START,
(u8 *)reg_info, IOSM_MDM_SEND_8,
mdm_rsp);
if (ret)
goto dl_region_fail;
ret = ipc_flash_erase_check(ipc_devlink, mdm_rsp);
if (ret)
goto dl_region_fail;
}
/* Request Flash Set Address */
ret = ipc_flash_send_receive(ipc_devlink, FLASH_SET_ADDRESS,
(u8 *)reg_info, IOSM_MDM_SEND_4, mdm_rsp);
if (ret)
goto dl_region_fail;
rest_len = fw->size;
/* Request Flash Write Raw Image */
ret = ipc_flash_send_data(ipc_devlink, IOSM_EBL_DW_PACK_SIZE,
FLASH_WRITE_IMAGE_RAW, (u8 *)&rest_len,
IOSM_MDM_SEND_4);
if (ret)
goto dl_region_fail;
do {
raw_len = (rest_len > IOSM_FLS_BUF_SIZE) ? IOSM_FLS_BUF_SIZE :
rest_len;
ret = ipc_imem_sys_devlink_write(ipc_devlink, file_ptr,
raw_len);
if (ret) {
dev_err(ipc_devlink->dev, "Image write failed");
goto dl_region_fail;
}
file_ptr += raw_len;
rest_len -= raw_len;
} while (rest_len);
ret = ipc_flash_receive_data(ipc_devlink, IOSM_EBL_DW_PAYL_SIZE,
mdm_rsp);
dl_region_fail:
return ret;
}
/* Flash the individual fls files */
int ipc_flash_send_fls(struct iosm_devlink *ipc_devlink,
const struct firmware *fw, u8 *mdm_rsp)
{
u16 flash_cmd;
int ret;
if (ipc_devlink->param.erase_full_flash) {
ipc_devlink->param.erase_full_flash = false;
ret = ipc_flash_full_erase(ipc_devlink, mdm_rsp);
if (ret)
goto ipc_flash_err;
}
/* Request Sec Start */
if (!ipc_devlink->param.download_region) {
ret = ipc_flash_send_receive(ipc_devlink, FLASH_SEC_START,
(u8 *)fw->data, fw->size, mdm_rsp);
if (ret)
goto ipc_flash_err;
} else {
/* Download regions */
ipc_devlink->param.region_count -= IOSM_SET_FLAG;
ret = ipc_flash_download_region(ipc_devlink, fw, mdm_rsp);
if (ret)
goto ipc_flash_err;
if (!ipc_devlink->param.region_count) {
/* Request Sec End */
flash_cmd = IOSM_MDM_SEND_DATA;
ret = ipc_flash_send_receive(ipc_devlink, FLASH_SEC_END,
(u8 *)&flash_cmd,
IOSM_MDM_SEND_2, mdm_rsp);
}
}
ipc_flash_err:
return ret;
}
/* Inject RPSI */
int ipc_flash_boot_psi(struct iosm_devlink *ipc_devlink,
const struct firmware *fw)
{
u8 psi_ack_byte[IOSM_PSI_ACK], read_data[2];
u32 bytes_read;
u8 *psi_code;
int ret;
dev_dbg(ipc_devlink->dev, "Boot transfer PSI");
psi_code = kmemdup(fw->data, fw->size, GFP_KERNEL);
if (!psi_code)
return -ENOMEM;
ret = ipc_imem_sys_devlink_write(ipc_devlink, psi_code, fw->size);
if (ret) {
dev_err(ipc_devlink->dev, "RPSI Image write failed");
goto ipc_flash_psi_free;
}
ret = ipc_imem_sys_devlink_read(ipc_devlink, read_data,
IOSM_LER_ACK_SIZE, &bytes_read);
if (ret) {
dev_err(ipc_devlink->dev, "ipc_devlink_sio_read ACK failed");
goto ipc_flash_psi_free;
}
if (bytes_read != IOSM_LER_ACK_SIZE) {
ret = -EINVAL;
goto ipc_flash_psi_free;
}
snprintf(psi_ack_byte, sizeof(psi_ack_byte), "%x%x", read_data[0],
read_data[1]);
devlink_flash_update_status_notify(ipc_devlink->devlink_ctx,
psi_ack_byte, "PSI ACK", 0, 0);
if (read_data[0] == 0x00 && read_data[1] == 0xCD) {
dev_dbg(ipc_devlink->dev, "Coredump detected");
ret = ipc_coredump_get_list(ipc_devlink,
rpsi_cmd_coredump_start);
if (ret)
dev_err(ipc_devlink->dev, "Failed to get cd list");
}
ipc_flash_psi_free:
kfree(psi_code);
return ret;
}
/* Inject EBL */
int ipc_flash_boot_ebl(struct iosm_devlink *ipc_devlink,
const struct firmware *fw)
{
u32 ebl_size = fw->size;
u8 read_data[2];
u32 bytes_read;
int ret;
if (ipc_mmio_get_exec_stage(ipc_devlink->pcie->imem->mmio) !=
IPC_MEM_EXEC_STAGE_PSI) {
devlink_flash_update_status_notify(ipc_devlink->devlink_ctx,
"Invalid execution stage",
NULL, 0, 0);
return -EINVAL;
}
dev_dbg(ipc_devlink->dev, "Boot transfer EBL");
ret = ipc_devlink_send_cmd(ipc_devlink, rpsi_cmd_code_ebl,
IOSM_RPSI_LOAD_SIZE);
if (ret) {
dev_err(ipc_devlink->dev, "Sending rpsi_cmd_code_ebl failed");
goto ipc_flash_ebl_err;
}
ret = ipc_imem_sys_devlink_read(ipc_devlink, read_data, IOSM_READ_SIZE,
&bytes_read);
if (ret) {
dev_err(ipc_devlink->dev, "rpsi_cmd_code_ebl read failed");
goto ipc_flash_ebl_err;
}
if (bytes_read != IOSM_READ_SIZE) {
ret = -EINVAL;
goto ipc_flash_ebl_err;
}
ret = ipc_imem_sys_devlink_write(ipc_devlink, (u8 *)&ebl_size,
sizeof(ebl_size));
if (ret) {
dev_err(ipc_devlink->dev, "EBL length write failed");
goto ipc_flash_ebl_err;
}
ret = ipc_imem_sys_devlink_read(ipc_devlink, read_data, IOSM_READ_SIZE,
&bytes_read);
if (ret) {
dev_err(ipc_devlink->dev, "EBL read failed");
goto ipc_flash_ebl_err;
}
if (bytes_read != IOSM_READ_SIZE) {
ret = -EINVAL;
goto ipc_flash_ebl_err;
}
ret = ipc_imem_sys_devlink_write(ipc_devlink, (unsigned char *)fw->data,
fw->size);
if (ret) {
dev_err(ipc_devlink->dev, "EBL data transfer failed");
goto ipc_flash_ebl_err;
}
ret = ipc_imem_sys_devlink_read(ipc_devlink, read_data, IOSM_READ_SIZE,
&bytes_read);
if (ret) {
dev_err(ipc_devlink->dev, "EBL read failed");
goto ipc_flash_ebl_err;
}
if (bytes_read != IOSM_READ_SIZE) {
ret = -EINVAL;
goto ipc_flash_ebl_err;
}
ret = ipc_imem_sys_devlink_read(ipc_devlink,
ipc_devlink->ebl_ctx.m_ebl_resp,
IOSM_EBL_RSP_SIZE, &bytes_read);
if (ret) {
dev_err(ipc_devlink->dev, "EBL response read failed");
goto ipc_flash_ebl_err;
}
if (bytes_read != IOSM_EBL_RSP_SIZE)
ret = -EINVAL;
ipc_flash_ebl_err:
return ret;
}
drivers/net/wwan/iosm/iosm_ipc_flash.h 0 → 100644
View file @ b5573474
/* SPDX-License-Identifier: GPL-2.0-only
*
* Copyright (C) 2020-2021 Intel Corporation.
*/
#ifndef _IOSM_IPC_FLASH_H
#define _IOSM_IPC_FLASH_H
/* Buffer size used to read the fls image */
#define IOSM_FLS_BUF_SIZE 0x00100000
/* Full erase start address */
#define IOSM_ERASE_START_ADDR 0x00000000
/* Erase length for NAND flash */
#define IOSM_ERASE_LEN 0xFFFFFFFF
/* EBL response Header size */
#define IOSM_EBL_HEAD_SIZE 8
/* EBL payload size */
#define IOSM_EBL_W_PAYL_SIZE 2048
/* Total EBL pack size */
#define IOSM_EBL_W_PACK_SIZE (IOSM_EBL_HEAD_SIZE + IOSM_EBL_W_PAYL_SIZE)
/* EBL payload size */
#define IOSM_EBL_DW_PAYL_SIZE 16384
/* Total EBL pack size */
#define IOSM_EBL_DW_PACK_SIZE (IOSM_EBL_HEAD_SIZE + IOSM_EBL_DW_PAYL_SIZE)
/* EBL name size */
#define IOSM_EBL_NAME 32
/* Maximum supported error types */
#define IOSM_MAX_ERRORS 8
/* Read size for RPSI/EBL response */
#define IOSM_READ_SIZE 2
/* Link establishment response ack size */
#define IOSM_LER_ACK_SIZE 2
/* PSI ACK len */
#define IOSM_PSI_ACK 8
/* SWID capability for packed swid type */
#define IOSM_EXT_CAP_SWID_OOS_PACK 0x02
/* EBL error response buffer */
#define IOSM_EBL_RSP_BUFF 0x0041
/* SWID string length */
#define IOSM_SWID_STR 64
/* Load EBL command size */
#define IOSM_RPSI_LOAD_SIZE 0
/* EBL payload checksum */
#define IOSM_EBL_CKSM 0x0000FFFF
/* SWID msg len and argument */
#define IOSM_MSG_LEN_ARG 0
/* Data to be sent to modem */
#define IOSM_MDM_SEND_DATA 0x0000
/* Data received from modem as part of erase check */
#define IOSM_MDM_ERASE_RSP 0x0001
/* Bit shift to calculate Checksum */
#define IOSM_EBL_PAYL_SHIFT 16
/* Flag To be set */
#define IOSM_SET_FLAG 1
/* Set flash erase check timeout to 100 msec */
#define IOSM_FLASH_ERASE_CHECK_TIMEOUT 100
/* Set flash erase check interval to 20 msec */
#define IOSM_FLASH_ERASE_CHECK_INTERVAL 20
/* Link establishment response ack size */
#define IOSM_LER_RSP_SIZE 60
/**
* enum iosm_flash_package_type - Enum for the flashing operations
* @FLASH_SET_PROT_CONF: Write EBL capabilities
* @FLASH_SEC_START: Start writing the secpack
* @FLASH_SEC_END: Validate secpack end
* @FLASH_SET_ADDRESS: Set the address for flashing
* @FLASH_ERASE_START: Start erase before flashing
* @FLASH_ERASE_CHECK: Validate the erase functionality
* @FLASH_OOS_CONTROL: Retrieve data based on oos actions
* @FLASH_OOS_DATA_READ: Read data from EBL
* @FLASH_WRITE_IMAGE_RAW: Write the raw image to flash
*/
enum iosm_flash_package_type {
FLASH_SET_PROT_CONF = 0x0086,
FLASH_SEC_START = 0x0204,
FLASH_SEC_END,
FLASH_SET_ADDRESS = 0x0802,
FLASH_ERASE_START = 0x0805,
FLASH_ERASE_CHECK,
FLASH_OOS_CONTROL = 0x080C,
FLASH_OOS_DATA_READ = 0x080E,
FLASH_WRITE_IMAGE_RAW,
};
/**
* enum iosm_out_of_session_action - Actions possible over the
* OutOfSession command interface
* @FLASH_OOSC_ACTION_READ: Read data according to its type
* @FLASH_OOSC_ACTION_ERASE: Erase data according to its type
*/
enum iosm_out_of_session_action {
FLASH_OOSC_ACTION_READ = 2,
FLASH_OOSC_ACTION_ERASE = 3,
};
/**
* enum iosm_out_of_session_type - Data types that can be handled over the
* Out Of Session command Interface
* @FLASH_OOSC_TYPE_ALL_FLASH: The whole flash area
* @FLASH_OOSC_TYPE_SWID_TABLE: Read the swid table from the target
*/
enum iosm_out_of_session_type {
FLASH_OOSC_TYPE_ALL_FLASH = 8,
FLASH_OOSC_TYPE_SWID_TABLE = 16,
};
/**
* enum iosm_ebl_caps - EBL capability settings
* @IOSM_CAP_NOT_ENHANCED: If capability not supported
* @IOSM_CAP_USE_EXT_CAP: To be set if extended capability is set
* @IOSM_EXT_CAP_ERASE_ALL: Set Erase all capability
* @IOSM_EXT_CAP_COMMIT_ALL: Set the commit all capability
*/
enum iosm_ebl_caps {
IOSM_CAP_NOT_ENHANCED = 0x00,
IOSM_CAP_USE_EXT_CAP = 0x01,
IOSM_EXT_CAP_ERASE_ALL = 0x08,
IOSM_EXT_CAP_COMMIT_ALL = 0x20,
};
/**
* enum iosm_ebl_rsp - EBL response field
* @EBL_CAPS_FLAG: EBL capability flag
* @EBL_SKIP_ERASE: EBL skip erase flag
* @EBL_SKIP_CRC: EBL skip wr_pack crc
* @EBL_EXT_CAPS_HANDLED: EBL extended capability handled flag
* @EBL_OOS_CONFIG: EBL oos configuration
* @EBL_RSP_SW_INFO_VER: EBL SW info version
*/
enum iosm_ebl_rsp {
EBL_CAPS_FLAG = 50,
EBL_SKIP_ERASE = 54,
EBL_SKIP_CRC = 55,
EBL_EXT_CAPS_HANDLED = 57,
EBL_OOS_CONFIG = 64,
EBL_RSP_SW_INFO_VER = 70,
};
/**
* enum iosm_mdm_send_recv_data - Data to send to modem
* @IOSM_MDM_SEND_2: Send 2 bytes of payload
* @IOSM_MDM_SEND_4: Send 4 bytes of payload
* @IOSM_MDM_SEND_8: Send 8 bytes of payload
* @IOSM_MDM_SEND_16: Send 16 bytes of payload
*/
enum iosm_mdm_send_recv_data {
IOSM_MDM_SEND_2 = 2,
IOSM_MDM_SEND_4 = 4,
IOSM_MDM_SEND_8 = 8,
IOSM_MDM_SEND_16 = 16,
};
/**
* struct iosm_ebl_one_error - Structure containing error details
* @error_class: Error type- standard, security and text error
* @error_code: Specific error from error type
*/
struct iosm_ebl_one_error {
u16 error_class;
u16 error_code;
};
/**
* struct iosm_ebl_error- Structure with max error type supported
* @error: Array of one_error structure with max errors
*/
struct iosm_ebl_error {
struct iosm_ebl_one_error error[IOSM_MAX_ERRORS];
};
/**
* struct iosm_swid_table - SWID table data for modem
* @number_of_data_sets: Number of swid types
* @sw_id_type: SWID type - SWID
* @sw_id_val: SWID value
* @rf_engine_id_type: RF engine ID type - RF_ENGINE_ID
* @rf_engine_id_val: RF engine ID value
*/
struct iosm_swid_table {
u32 number_of_data_sets;
char sw_id_type[IOSM_EBL_NAME];
u32 sw_id_val;
char rf_engine_id_type[IOSM_EBL_NAME];
u32 rf_engine_id_val;
};
/**
* struct iosm_flash_msg_control - Data sent to modem
* @action: Action to be performed
* @type: Type of action
* @length: Length of the action
* @arguments: Argument value sent to modem
*/
struct iosm_flash_msg_control {
__le32 action;
__le32 type;
__le32 length;
__le32 arguments;
};
/**
* struct iosm_flash_data - Header Data to be sent to modem
* @checksum: Checksum value calculated for the payload data
* @pack_id: Flash Action type
* @msg_length: Payload length
*/
struct iosm_flash_data {
__le16 checksum;
__le16 pack_id;
__le32 msg_length;
};
/**
* ipc_flash_boot_psi - Inject PSI image
* @ipc_devlink: Pointer to devlink structure
* @fw: FW image
*
* Returns: 0 on success and failure value on error
*/
int ipc_flash_boot_psi(struct iosm_devlink *ipc_devlink,
const struct firmware *fw);
/**
* ipc_flash_boot_ebl - Inject EBL image
* @ipc_devlink: Pointer to devlink structure
* @fw: FW image
*
* Returns: 0 on success and failure value on error
*/
int ipc_flash_boot_ebl(struct iosm_devlink *ipc_devlink,
const struct firmware *fw);
/**
* ipc_flash_boot_set_capabilities - Set modem bool capabilities in flash
* @ipc_devlink: Pointer to devlink structure
* @mdm_rsp: Pointer to modem response buffer
*
* Returns: 0 on success and failure value on error
*/
int ipc_flash_boot_set_capabilities(struct iosm_devlink *ipc_devlink,
u8 *mdm_rsp);
/**
* ipc_flash_link_establish - Flash link establishment
* @ipc_imem: Pointer to struct iosm_imem
*
* Returns: 0 on success and failure value on error
*/
int ipc_flash_link_establish(struct iosm_imem *ipc_imem);
/**
* ipc_flash_read_swid - Get swid during flash phase
* @ipc_devlink: Pointer to devlink structure
* @mdm_rsp: Pointer to modem response buffer
*
* Returns: 0 on success and failure value on error
*/
int ipc_flash_read_swid(struct iosm_devlink *ipc_devlink, u8 *mdm_rsp);
/**
* ipc_flash_send_fls - Inject Modem subsystem fls file to device
* @ipc_devlink: Pointer to devlink structure
* @fw: FW image
* @mdm_rsp: Pointer to modem response buffer
*
* Returns: 0 on success and failure value on error
*/
int ipc_flash_send_fls(struct iosm_devlink *ipc_devlink,
const struct firmware *fw, u8 *mdm_rsp);
#endif
Markdown is supported
0% or
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment
GitLab Nexedi Edition | About GitLab | About Nexedi | 沪ICP备2021021310号-2 | 沪ICP备2021021310号-7