blob: 606953d6387cc2cd2ad1c56219faab4899870837 [file] [log] [blame]
/* Copyright (c) 2008-2013, The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#ifndef DIAGCHAR_H
#define DIAGCHAR_H
#include <linux/init.h>
#include <linux/module.h>
#include <linux/mempool.h>
#include <linux/mutex.h>
#include <linux/spinlock.h>
#include <linux/workqueue.h>
#include <linux/sched.h>
#include <linux/wakelock.h>
#include <mach/msm_smd.h>
#include <asm/atomic.h>
#include <asm/mach-types.h>
/* Size of the USB buffers used for read and write*/
#define USB_MAX_OUT_BUF 4096
#define APPS_BUF_SIZE 4096
#define IN_BUF_SIZE 16384
#define MAX_IN_BUF_SIZE 32768
#define MAX_SYNC_OBJ_NAME_SIZE 32
/* Size of the buffer used for deframing a packet
reveived from the PC tool*/
#define HDLC_MAX 4096
#define HDLC_OUT_BUF_SIZE 8192
#define POOL_TYPE_COPY 1
#define POOL_TYPE_HDLC 2
#define POOL_TYPE_USER 3
#define POOL_TYPE_WRITE_STRUCT 4
#define POOL_TYPE_HSIC 5
#define POOL_TYPE_HSIC_2 6
#define POOL_TYPE_HSIC_WRITE 11
#define POOL_TYPE_HSIC_2_WRITE 12
#define POOL_TYPE_ALL 10
#define POOL_COPY_IDX 0
#define POOL_HDLC_IDX 1
#define POOL_USER_IDX 2
#define POOL_WRITE_STRUCT_IDX 3
#define POOL_HSIC_IDX 4
#define POOL_HSIC_2_IDX 5
#define POOL_HSIC_3_IDX 6
#define POOL_HSIC_4_IDX 7
#define POOL_HSIC_WRITE_IDX 8
#define POOL_HSIC_2_WRITE_IDX 9
#define POOL_HSIC_3_WRITE_IDX 10
#define POOL_HSIC_4_WRITE_IDX 11
#ifdef CONFIG_DIAGFWD_BRIDGE_CODE
#define NUM_MEMORY_POOLS 12
#else
#define NUM_MEMORY_POOLS 4
#endif
#define MAX_SSID_PER_RANGE 200
#define MODEM_DATA 0
#define LPASS_DATA 1
#define WCNSS_DATA 2
#define APPS_DATA 3
#define SDIO_DATA 4
#define HSIC_DATA 5
#define HSIC_2_DATA 6
#define SMUX_DATA 10
#define APPS_PROC 1
/*
* Each row contains First (uint32_t), Last (uint32_t), Actual
* last (uint32_t) values along with the range of SSIDs
* (MAX_SSID_PER_RANGE*uint32_t).
* And there are MSG_MASK_TBL_CNT rows.
*/
#define MSG_MASK_SIZE ((MAX_SSID_PER_RANGE+3) * 4 * MSG_MASK_TBL_CNT)
#define MAX_EQUIP_ID 16
#define MAX_ITEMS_PER_EQUIP_ID 512
#define LOG_MASK_ITEM_SIZE (5 + MAX_ITEMS_PER_EQUIP_ID)
#define LOG_MASK_SIZE (MAX_EQUIP_ID * LOG_MASK_ITEM_SIZE)
#define EVENT_MASK_SIZE 1000
#define USER_SPACE_DATA 8192
#define PKT_SIZE 4096
#define DIAG_CTRL_MSG_LOG_MASK 9
#define DIAG_CTRL_MSG_EVENT_MASK 10
#define DIAG_CTRL_MSG_F3_MASK 11
#define CONTROL_CHAR 0x7E
#define DIAG_CON_APSS (0x0001) /* Bit mask for APSS */
#define DIAG_CON_MPSS (0x0002) /* Bit mask for MPSS */
#define DIAG_CON_LPASS (0x0004) /* Bit mask for LPASS */
#define DIAG_CON_WCNSS (0x0008) /* Bit mask for WCNSS */
#define NUM_STM_PROCESSORS 4
#define DIAG_STM_MODEM 0x01
#define DIAG_STM_LPASS 0x02
#define DIAG_STM_WCNSS 0x04
#define DIAG_STM_APPS 0x08
/*
* The status bit masks when received in a signal handler are to be
* used in conjunction with the peripheral list bit mask to determine the
* status for a peripheral. For instance, 0x00010002 would denote an open
* status on the MPSS
*/
#define DIAG_STATUS_OPEN (0x00010000) /* DCI channel open status mask */
#define DIAG_STATUS_CLOSED (0x00020000) /* DCI channel closed status mask */
#define MODE_REALTIME 1
#define MODE_NONREALTIME 0
#define NUM_SMD_DATA_CHANNELS 3
#define NUM_SMD_CONTROL_CHANNELS NUM_SMD_DATA_CHANNELS
#define NUM_SMD_DCI_CHANNELS 1
#define NUM_SMD_CMD_CHANNELS 1
#define NUM_SMD_DCI_CMD_CHANNELS 1
#define SMD_DATA_TYPE 0
#define SMD_CNTL_TYPE 1
#define SMD_DCI_TYPE 2
#define SMD_CMD_TYPE 3
#define SMD_DCI_CMD_TYPE 4
#define DIAG_PROC_DCI 1
#define DIAG_PROC_MEMORY_DEVICE 2
/* Flags to vote the DCI or Memory device process up or down
when it becomes active or inactive */
#define VOTE_DOWN 0
#define VOTE_UP 1
#define DIAG_TS_SIZE 50
/* Maximum number of pkt reg supported at initialization*/
extern int diag_max_reg;
extern int diag_threshold_reg;
#define APPEND_DEBUG(ch) \
do { \
diag_debug_buf[diag_debug_buf_idx] = ch; \
(diag_debug_buf_idx < 1023) ? \
(diag_debug_buf_idx++) : (diag_debug_buf_idx = 0); \
} while (0)
/* List of remote processor supported */
enum remote_procs {
MDM = 1,
MDM2 = 2,
MDM3 = 3,
MDM4 = 4,
QSC = 5,
};
struct diag_master_table {
uint16_t cmd_code;
uint16_t subsys_id;
uint32_t client_id;
uint16_t cmd_code_lo;
uint16_t cmd_code_hi;
int process_id;
};
struct bindpkt_params_per_process {
/* Name of the synchronization object associated with this proc */
char sync_obj_name[MAX_SYNC_OBJ_NAME_SIZE];
uint32_t count; /* Number of entries in this bind */
struct bindpkt_params *params; /* first bind params */
};
struct bindpkt_params {
uint16_t cmd_code;
uint16_t subsys_id;
uint16_t cmd_code_lo;
uint16_t cmd_code_hi;
/* For Central Routing, used to store Processor number */
uint16_t proc_id;
uint32_t event_id;
uint32_t log_code;
/* For Central Routing, used to store SMD channel pointer */
uint32_t client_id;
};
struct diag_write_device {
void *buf;
int length;
};
struct diag_client_map {
char name[20];
int pid;
};
struct diag_nrt_wake_lock {
int enabled;
int ref_count;
int copy_count;
struct wake_lock read_lock;
spinlock_t read_spinlock;
};
struct real_time_vote_t {
uint16_t proc;
uint8_t real_time_vote;
};
/* This structure is defined in USB header file */
#ifndef CONFIG_DIAG_OVER_USB
struct diag_request {
char *buf;
int length;
int actual;
int status;
void *context;
};
#endif
struct diag_smd_info {
int peripheral; /* The peripheral this smd channel communicates with */
int type; /* The type of smd channel (data, control, dci) */
uint16_t peripheral_mask;
int encode_hdlc; /* Whether data is raw and needs to be hdlc encoded */
smd_channel_t *ch;
smd_channel_t *ch_save;
struct mutex smd_ch_mutex;
int in_busy_1;
int in_busy_2;
unsigned char *buf_in_1;
unsigned char *buf_in_2;
unsigned char *buf_in_1_raw;
unsigned char *buf_in_2_raw;
unsigned int buf_in_1_size;
unsigned int buf_in_2_size;
unsigned int buf_in_1_raw_size;
unsigned int buf_in_2_raw_size;
struct diag_request *write_ptr_1;
struct diag_request *write_ptr_2;
struct diag_nrt_wake_lock nrt_lock;
struct workqueue_struct *wq;
struct work_struct diag_read_smd_work;
struct work_struct diag_notify_update_smd_work;
int notify_context;
struct work_struct diag_general_smd_work;
int general_context;
/*
* Function ptr for function to call to process the data that
* was just read from the smd channel
*/
int (*process_smd_read_data)(struct diag_smd_info *smd_info,
void *buf, int num_bytes);
};
struct diagchar_dev {
/* State for the char driver */
unsigned int major;
unsigned int minor_start;
int num;
struct cdev *cdev;
char *name;
int dropped_count;
struct class *diagchar_class;
int ref_count;
struct mutex diagchar_mutex;
wait_queue_head_t wait_q;
wait_queue_head_t smd_wait_q;
struct diag_client_map *client_map;
int *data_ready;
int num_clients;
int polling_reg_flag;
struct diag_write_device *buf_tbl;
unsigned int buf_tbl_size;
int use_device_tree;
int supports_separate_cmdrsp;
int supports_apps_hdlc_encoding;
/* The state requested in the STM command */
int stm_state_requested[NUM_STM_PROCESSORS];
/* The current STM state */
int stm_state[NUM_STM_PROCESSORS];
/* Whether or not the peripheral supports STM */
int peripheral_supports_stm[NUM_SMD_CONTROL_CHANNELS];
/* DCI related variables */
struct list_head dci_req_list;
struct diag_dci_client_tbl *dci_client_tbl;
int dci_tag;
int dci_client_id;
struct mutex dci_mutex;
int num_dci_client;
unsigned char *apps_dci_buf;
int dci_state;
struct workqueue_struct *diag_dci_wq;
/* Memory pool parameters */
unsigned int itemsize;
unsigned int poolsize;
unsigned int itemsize_hdlc;
unsigned int poolsize_hdlc;
unsigned int itemsize_user;
unsigned int poolsize_user;
unsigned int itemsize_write_struct;
unsigned int poolsize_write_struct;
unsigned int debug_flag;
/* State for the mempool for the char driver */
mempool_t *diagpool;
mempool_t *diag_hdlc_pool;
mempool_t *diag_user_pool;
mempool_t *diag_write_struct_pool;
spinlock_t diag_mem_lock;
int count;
int count_hdlc_pool;
int count_user_pool;
int count_write_struct_pool;
int used;
/* Buffers for masks */
struct mutex diag_cntl_mutex;
struct diag_ctrl_event_mask *event_mask;
struct diag_ctrl_log_mask *log_mask;
struct diag_ctrl_msg_mask *msg_mask;
struct diag_ctrl_feature_mask *feature_mask;
struct mutex log_mask_mutex;
/* State for diag forwarding */
struct diag_smd_info smd_data[NUM_SMD_DATA_CHANNELS];
struct diag_smd_info smd_cntl[NUM_SMD_CONTROL_CHANNELS];
struct diag_smd_info smd_dci[NUM_SMD_DCI_CHANNELS];
struct diag_smd_info smd_cmd[NUM_SMD_CMD_CHANNELS];
struct diag_smd_info smd_dci_cmd[NUM_SMD_DCI_CMD_CHANNELS];
int rcvd_feature_mask[NUM_SMD_CONTROL_CHANNELS];
int separate_cmdrsp[NUM_SMD_CONTROL_CHANNELS];
unsigned char *usb_buf_out;
unsigned char *apps_rsp_buf;
unsigned char *user_space_data_buf;
/* buffer for updating mask to peripherals */
unsigned char *buf_msg_mask_update;
unsigned char *buf_log_mask_update;
unsigned char *buf_event_mask_update;
unsigned char *buf_feature_mask_update;
int read_len_legacy;
struct mutex diag_hdlc_mutex;
unsigned char *hdlc_buf;
unsigned hdlc_count;
unsigned hdlc_escape;
int in_busy_pktdata;
struct device *dci_device;
struct device *dci_cmd_device;
/* Variables for non real time mode */
int real_time_mode;
int real_time_update_busy;
uint16_t proc_active_mask;
uint16_t proc_rt_vote_mask;
struct mutex real_time_mutex;
struct work_struct diag_real_time_work;
struct workqueue_struct *diag_real_time_wq;
#ifdef CONFIG_DIAG_OVER_USB
int usb_connected;
struct usb_diag_ch *legacy_ch;
struct work_struct diag_proc_hdlc_work;
struct work_struct diag_read_work;
struct work_struct diag_usb_connect_work;
struct work_struct diag_usb_disconnect_work;
#endif
struct workqueue_struct *diag_wq;
struct work_struct diag_drain_work;
struct workqueue_struct *diag_cntl_wq;
uint8_t *msg_masks;
uint8_t msg_status;
uint8_t *log_masks;
uint8_t log_status;
uint8_t *event_masks;
uint8_t event_status;
uint8_t log_on_demand_support;
struct diag_master_table *table;
uint8_t *pkt_buf;
int pkt_length;
struct diag_request *usb_read_ptr;
struct diag_request *write_ptr_svc;
int logging_mode;
int mask_check;
int logging_process_id;
struct task_struct *socket_process;
struct task_struct *callback_process;
#ifdef CONFIG_DIAG_SDIO_PIPE
unsigned char *buf_in_sdio;
unsigned char *usb_buf_mdm_out;
struct sdio_channel *sdio_ch;
int read_len_mdm;
int in_busy_sdio;
struct usb_diag_ch *mdm_ch;
struct work_struct diag_read_mdm_work;
struct workqueue_struct *diag_sdio_wq;
struct work_struct diag_read_sdio_work;
struct work_struct diag_close_sdio_work;
struct diag_request *usb_read_mdm_ptr;
struct diag_request *write_ptr_mdm;
#endif
#ifdef CONFIG_DIAGFWD_BRIDGE_CODE
/* common for all bridges */
struct work_struct diag_connect_work;
struct work_struct diag_disconnect_work;
/* SGLTE variables */
int lcid;
unsigned char *buf_in_smux;
int in_busy_smux;
int diag_smux_enabled;
int smux_connected;
struct diag_request *write_ptr_mdm;
#endif
};
extern struct diag_bridge_dev *diag_bridge;
extern struct diag_hsic_dev *diag_hsic;
extern struct diagchar_dev *driver;
extern int wrap_enabled;
extern uint16_t wrap_count;
void diag_get_timestamp(char *time_str);
int diag_find_polling_reg(int i);
#endif