cregit-Linux how code gets into the kernel

Release 4.7 drivers/media/usb/pvrusb2/pvrusb2-hdw-internal.h

/*
 *
 *
 *  Copyright (C) 2005 Mike Isely <isely@pobox.com>
 *
 *  This program is free software; you can redistribute it and/or modify
 *  it under the terms of the GNU General Public License as published by
 *  the Free Software Foundation; either version 2 of the License
 *
 *  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.
 *
 *  You should have received a copy of the GNU General Public License
 *  along with this program; if not, write to the Free Software
 *  Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA
 *
 */
#ifndef __PVRUSB2_HDW_INTERNAL_H

#define __PVRUSB2_HDW_INTERNAL_H

/*

  This header sets up all the internal structures and definitions needed to
  track and coordinate the driver's interaction with the hardware.  ONLY
  source files which actually implement part of that whole circus should be
  including this header.  Higher levels, like the external layers to the
  various public APIs (V4L, sysfs, etc) should NOT ever include this
  private, internal header.  This means that pvrusb2-hdw, pvrusb2-encoder,
  etc will include this, but pvrusb2-v4l should not.

*/

#include <linux/videodev2.h>
#include <linux/i2c.h>
#include <linux/workqueue.h>
#include <linux/mutex.h>
#include "pvrusb2-hdw.h"
#include "pvrusb2-io.h"
#include <media/v4l2-device.h>
#include <media/drv-intf/cx2341x.h>
#include <media/i2c/ir-kbd-i2c.h>
#include "pvrusb2-devattr.h"

/* Legal values for PVR2_CID_HSM */

#define PVR2_CVAL_HSM_FAIL 0

#define PVR2_CVAL_HSM_FULL 1

#define PVR2_CVAL_HSM_HIGH 2


#define PVR2_VID_ENDPOINT        0x84

#define PVR2_UNK_ENDPOINT        0x86    
/* maybe raw yuv ? */

#define PVR2_VBI_ENDPOINT        0x88


#define PVR2_CTL_BUFFSIZE        64


#define FREQTABLE_SIZE 500


#define LOCK_TAKE(x) do { mutex_lock(&x##_mutex); x##_held = !0; } while (0)

#define LOCK_GIVE(x) do { x##_held = 0; mutex_unlock(&x##_mutex); } while (0)


typedef int (*pvr2_ctlf_is_dirty)(struct pvr2_ctrl *);

typedef void (*pvr2_ctlf_clear_dirty)(struct pvr2_ctrl *);

typedef int (*pvr2_ctlf_check_value)(struct pvr2_ctrl *,int);

typedef int (*pvr2_ctlf_get_value)(struct pvr2_ctrl *,int *);

typedef int (*pvr2_ctlf_set_value)(struct pvr2_ctrl *,int msk,int val);

typedef int (*pvr2_ctlf_val_to_sym)(struct pvr2_ctrl *,int msk,int val,
				    char *,unsigned int,unsigned int *);

typedef int (*pvr2_ctlf_sym_to_val)(struct pvr2_ctrl *,
				    const char *,unsigned int,
				    int *mskp,int *valp);

typedef unsigned int (*pvr2_ctlf_get_v4lflags)(struct pvr2_ctrl *);

/* This structure describes a specific control.  A table of these is set up
   in pvrusb2-hdw.c. */

struct pvr2_ctl_info {
	/* Control's name suitable for use as an identifier */
	
const char *name;

	/* Short description of control */
	
const char *desc;

	/* Control's implementation */
	
pvr2_ctlf_get_value get_value;      /* Get its value */
	
pvr2_ctlf_get_value get_def_value;  /* Get its default value */
	
pvr2_ctlf_get_value get_min_value;  /* Get minimum allowed value */
	
pvr2_ctlf_get_value get_max_value;  /* Get maximum allowed value */
	
pvr2_ctlf_set_value set_value;      /* Set its value */
	
pvr2_ctlf_check_value check_value;  /* Check that value is valid */
	
pvr2_ctlf_val_to_sym val_to_sym;    /* Custom convert value->symbol */
	
pvr2_ctlf_sym_to_val sym_to_val;    /* Custom convert symbol->value */
	
pvr2_ctlf_is_dirty is_dirty;        /* Return true if dirty */
	
pvr2_ctlf_clear_dirty clear_dirty;  /* Clear dirty state */
	
pvr2_ctlf_get_v4lflags get_v4lflags;/* Retrieve v4l flags */

	/* Control's type (int, enum, bitmask) */
	
enum pvr2_ctl_type type;

	/* Associated V4L control ID, if any */
	
int v4l_id;

	/* Associated driver internal ID, if any */
	
int internal_id;

	/* Don't implicitly initialize this control's value */
	
int skip_init;

	/* Starting value for this control */
	
int default_value;

	/* Type-specific control information */
	union {
		struct { /* Integer control */
			
long min_value; /* lower limit */
			
long max_value; /* upper limit */
		} 
type_int;
		struct { /* enumerated control */
			
unsigned int count;       /* enum value count */
			
const char * const *value_names; /* symbol names */
		} 
type_enum;
		struct { /* bitmask control */
			
unsigned int valid_bits; /* bits in use */
			
const char **bit_names;  /* symbol name/bit */
		} 
type_bitmask;
	} 
def;
};


/* Same as pvr2_ctl_info, but includes storage for the control description */

#define PVR2_CTLD_INFO_DESC_SIZE 32

struct pvr2_ctld_info {
	
struct pvr2_ctl_info info;
	
char desc[PVR2_CTLD_INFO_DESC_SIZE];
};


struct pvr2_ctrl {
	
const struct pvr2_ctl_info *info;
	
struct pvr2_hdw *hdw;
};



/* Disposition of firmware1 loading situation */

#define FW1_STATE_UNKNOWN 0

#define FW1_STATE_MISSING 1

#define FW1_STATE_FAILED 2

#define FW1_STATE_RELOAD 3

#define FW1_STATE_OK 4

/* What state the device is in if it is a hybrid */

#define PVR2_PATHWAY_UNKNOWN 0

#define PVR2_PATHWAY_ANALOG 1

#define PVR2_PATHWAY_DIGITAL 2


typedef int (*pvr2_i2c_func)(struct pvr2_hdw *,u8,u8 *,u16,u8 *, u16);

#define PVR2_I2C_FUNC_CNT 128

/* This structure contains all state data directly needed to
   manipulate the hardware (as opposed to complying with a kernel
   interface) */

struct pvr2_hdw {
	/* Underlying USB device handle */
	
struct usb_device *usb_dev;
	
struct usb_interface *usb_intf;

	/* Our handle into the v4l2 sub-device architecture */
	
struct v4l2_device v4l2_dev;
	/* Device description, anything that must adjust behavior based on
           device specific info will use information held here. */
	
const struct pvr2_device_desc *hdw_desc;

	/* Kernel worker thread handling */
	
struct workqueue_struct *workqueue;
	
struct work_struct workpoll;     /* Update driver state */

	/* Video spigot */
	
struct pvr2_stream *vid_stream;

	/* Mutex for all hardware state control */
	
struct mutex big_lock_mutex;
	
int big_lock_held;  /* For debugging */

	/* This is a simple string which identifies the instance of this
           driver.  It is unique within the set of existing devices, but
           there is no attempt to keep the name consistent with the same
           physical device each time. */
	
char name[32];

	/* This is a simple string which identifies the physical device
           instance itself - if possible.  (If not possible, then it is
           based on the specific driver instance, similar to name above.)
           The idea here is that userspace might hopefully be able to use
           this recognize specific tuners.  It will encode a serial number,
           if available. */
	
char identifier[32];

	/* I2C stuff */
	
struct i2c_adapter i2c_adap;
	
struct i2c_algorithm i2c_algo;
	
pvr2_i2c_func i2c_func[PVR2_I2C_FUNC_CNT];
	
int i2c_cx25840_hack_state;
	
int i2c_linked;

	/* IR related */
	
unsigned int ir_scheme_active; /* IR scheme as seen from the outside */
	
struct IR_i2c_init_data ir_init_data; /* params passed to IR modules */

	/* Frequency table */
	
unsigned int freqTable[FREQTABLE_SIZE];
	
unsigned int freqProgSlot;

	/* Stuff for handling low level control interaction with device */
	
struct mutex ctl_lock_mutex;
	
int ctl_lock_held;  /* For debugging */
	
struct urb *ctl_write_urb;
	
struct urb *ctl_read_urb;
	
unsigned char *ctl_write_buffer;
	
unsigned char *ctl_read_buffer;
	
int ctl_write_pend_flag;
	
int ctl_read_pend_flag;
	
int ctl_timeout_flag;
	
struct completion ctl_done;
	
unsigned char cmd_buffer[PVR2_CTL_BUFFSIZE];
	
int cmd_debug_state;               // Low level command debugging info
	
unsigned char cmd_debug_code;      //
	
unsigned int cmd_debug_write_len;  //
	
unsigned int cmd_debug_read_len;   //

	/* Bits of state that describe what is going on with various parts
           of the driver. */
	
int state_pathway_ok;         /* Pathway config is ok */
	
int state_encoder_ok;         /* Encoder is operational */
	
int state_encoder_run;        /* Encoder is running */
	
int state_encoder_config;     /* Encoder is configured */
	
int state_encoder_waitok;     /* Encoder pre-wait done */
	
int state_encoder_runok;      /* Encoder has run for >= .25 sec */
	
int state_decoder_run;        /* Decoder is running */
	
int state_decoder_ready;      /* Decoder is stabilized & streamable */
	
int state_usbstream_run;      /* FX2 is streaming */
	
int state_decoder_quiescent;  /* Decoder idle for minimal interval */
	
int state_pipeline_config;    /* Pipeline is configured */
	
int state_pipeline_req;       /* Somebody wants to stream */
	
int state_pipeline_pause;     /* Pipeline must be paused */
	
int state_pipeline_idle;      /* Pipeline not running */

	/* This is the master state of the driver.  It is the combined
           result of other bits of state.  Examining this will indicate the
           overall state of the driver.  Values here are one of
           PVR2_STATE_xxxx */
	
unsigned int master_state;

	/* True if device led is currently on */
	
int led_on;

	/* True if states must be re-evaluated */
	
int state_stale;

	
void (*state_func)(void *);
	
void *state_data;

	/* Timer for measuring required decoder settling time before we're
           allowed to fire it up again. */
	
struct timer_list quiescent_timer;

	/* Timer for measuring decoder stabilization time, which is the
           amount of time we need to let the decoder run before we can
           trust its output (otherwise the encoder might see garbage and
           then fail to start correctly). */
	
struct timer_list decoder_stabilization_timer;

	/* Timer for measuring encoder pre-wait time */
	
struct timer_list encoder_wait_timer;

	/* Timer for measuring encoder minimum run time */
	
struct timer_list encoder_run_timer;

	/* Place to block while waiting for state changes */
	
wait_queue_head_t state_wait_data;


	
int force_dirty;        /* consider all controls dirty if true */
	
int flag_ok;            /* device in known good state */
	
int flag_modulefail;    /* true if at least one module failed to load */
	
int flag_disconnected;  /* flag_ok == 0 due to disconnect */
	
int flag_init_ok;       /* true if structure is fully initialized */
	
int fw1_state;          /* current situation with fw1 */
	
int pathway_state;      /* one of PVR2_PATHWAY_xxx */
	
int flag_decoder_missed;/* We've noticed missing decoder */
	
int flag_tripped;       /* Indicates overall failure to start */

	
unsigned int decoder_client_id;

	// CPU firmware info (used to help find / save firmware data)
	
char *fw_buffer;
	
unsigned int fw_size;
	
int fw_cpu_flag; /* True if we are dealing with the CPU */

	/* Tuner / frequency control stuff */
	
unsigned int tuner_type;
	
int tuner_updated;
	
unsigned int freqValTelevision;  /* Current freq for tv mode */
	
unsigned int freqValRadio;       /* Current freq for radio mode */
	
unsigned int freqSlotTelevision; /* Current slot for tv mode */
	
unsigned int freqSlotRadio;      /* Current slot for radio mode */
	
unsigned int freqSelector;       /* 0=radio 1=television */
	
int freqDirty;

	/* Current tuner info - this information is polled from the I2C bus */
	
struct v4l2_tuner tuner_signal_info;
	
int tuner_signal_stale;

	/* Cropping capability info */
	
struct v4l2_cropcap cropcap_info;
	
int cropcap_stale;

	/* Video standard handling */
	
v4l2_std_id std_mask_eeprom; // Hardware supported selections
	
v4l2_std_id std_mask_avail;  // Which standards we may select from
	
v4l2_std_id std_mask_cur;    // Currently selected standard(s)
	
int std_enum_cur;            // selected standard enumeration value
	
int std_dirty;               // True if std_mask_cur has changed
	
struct pvr2_ctl_info std_info_enum;
	
struct pvr2_ctl_info std_info_avail;
	
struct pvr2_ctl_info std_info_cur;
	
struct pvr2_ctl_info std_info_detect;

	// Generated string names, one per actual V4L2 standard
	
const char *std_mask_ptrs[32];
	
char std_mask_names[32][16];

	
int unit_number;             /* ID for driver instance */
	
unsigned long serial_number; /* ID for hardware itself */

	
char bus_info[32]; /* Bus location info */

	/* Minor numbers used by v4l logic (yes, this is a hack, as there
           should be no v4l junk here).  Probably a better way to do this. */
	
int v4l_minor_number_video;
	
int v4l_minor_number_vbi;
	
int v4l_minor_number_radio;

	/* Bit mask of PVR2_CVAL_INPUT choices which are valid for the hardware */
	
unsigned int input_avail_mask;
	/* Bit mask of PVR2_CVAL_INPUT choices which are currently allowed */
	
unsigned int input_allowed_mask;

	/* Location of eeprom or a negative number if none */
	
int eeprom_addr;

	
enum pvr2_config active_stream_type;
	
enum pvr2_config desired_stream_type;

	/* Control state needed for cx2341x module */
	
struct cx2341x_mpeg_params enc_cur_state;
	
struct cx2341x_mpeg_params enc_ctl_state;
	/* True if an encoder attribute has changed */
	
int enc_stale;
	/* True if an unsafe encoder attribute has changed */
	
int enc_unsafe_stale;
	/* True if enc_cur_state is valid */
	
int enc_cur_valid;

	/* Control state */

#define VCREATE_DATA(lab) int lab##_val; int lab##_dirty
	VCREATE_DATA(brightness);
	VCREATE_DATA(contrast);
	VCREATE_DATA(saturation);
	VCREATE_DATA(hue);
	VCREATE_DATA(volume);
	VCREATE_DATA(balance);
	VCREATE_DATA(bass);
	VCREATE_DATA(treble);
	VCREATE_DATA(mute);
	VCREATE_DATA(cropl);
	VCREATE_DATA(cropt);
	VCREATE_DATA(cropw);
	VCREATE_DATA(croph);
	VCREATE_DATA(input);
	VCREATE_DATA(audiomode);
	VCREATE_DATA(res_hor);
	VCREATE_DATA(res_ver);
	VCREATE_DATA(srate);

#undef VCREATE_DATA

	
struct pvr2_ctld_info *mpeg_ctrl_info;

	
struct pvr2_ctrl *controls;
	
unsigned int control_cnt;
};

/* This function gets the current frequency */
unsigned long pvr2_hdw_get_cur_freq(struct pvr2_hdw *);

void pvr2_hdw_status_poll(struct pvr2_hdw *);

#endif /* __PVRUSB2_HDW_INTERNAL_H */

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