typedef struct stUserThreadReq
{
- //0->Inactivate LED thread.
- //1->Activate the LED thread
+ /* 0->Inactivate LED thread. */
+ /* 1->Activate the LED thread */
UINT ThreadState;
} __attribute__((packed))USER_THREAD_REQ, *PUSER_THREAD_REQ;
-#define LED_THREAD_ACTIVATION_REQ 1
-
-////********** ioctl codes ***********////
+#define LED_THREAD_ACTIVATION_REQ 1
#define BCM_IOCTL 'k'
-//1.Control code for CONTROL MESSAGES
#define IOCTL_SEND_CONTROL_MESSAGE _IOW(BCM_IOCTL, 0x801, int)
-//2.Control code to write a particular value to a particular register
-#define IOCTL_BCM_REGISTER_WRITE _IOW(BCM_IOCTL, 0x802, int) //
-//3.
-#define IOCTL_BCM_REGISTER_READ _IOR(BCM_IOCTL, 0x803, int) //
-//4.Control code to write x number of bytes to common memory
-//starting from address y
-#define IOCTL_BCM_COMMON_MEMORY_WRITE _IOW(BCM_IOCTL, 0x804, int)//
-//5.Control code to write x number of bytes to common memory
-//starting from address y
-#define IOCTL_BCM_COMMON_MEMORY_READ _IOR(BCM_IOCTL, 0x805, int)//
-//6.Control code for CONTROL MESSAGES
-#define IOCTL_GET_CONTROL_MESSAGE _IOR(BCM_IOCTL, 0x806, int)//
-//7.Control code for FIRMWARE DOWNLOAD
-#define IOCTL_BCM_FIRMWARE_DOWNLOAD _IOW(BCM_IOCTL, 0x807, int)//
+#define IOCTL_BCM_REGISTER_WRITE _IOW(BCM_IOCTL, 0x802, int)
+#define IOCTL_BCM_REGISTER_READ _IOR(BCM_IOCTL, 0x803, int)
+#define IOCTL_BCM_COMMON_MEMORY_WRITE _IOW(BCM_IOCTL, 0x804, int)
+#define IOCTL_BCM_COMMON_MEMORY_READ _IOR(BCM_IOCTL, 0x805, int)
+#define IOCTL_GET_CONTROL_MESSAGE _IOR(BCM_IOCTL, 0x806, int)
+#define IOCTL_BCM_FIRMWARE_DOWNLOAD _IOW(BCM_IOCTL, 0x807, int)
#define IOCTL_BCM_SET_SEND_VCID _IOW(BCM_IOCTL, 0x808, int)
-//9.Control code for TRANSFER MODE SWITCHING
#define IOCTL_BCM_SWITCH_TRANSFER_MODE _IOW(BCM_IOCTL, 0x809, int)
-//10.Control code for LINK UP
#define IOCTL_LINK_REQ _IOW(BCM_IOCTL, 0x80A, int)
-//11.Control code for RSSI Level Request
#define IOCTL_RSSI_LEVEL_REQ _IOW(BCM_IOCTL, 0x80B, int)
-//12.Control code for IDLE MODE CONTROL
#define IOCTL_IDLE_REQ _IOW(BCM_IOCTL, 0x80C, int)
-//13.Control code for SS/BS info
#define IOCTL_SS_INFO_REQ _IOW(BCM_IOCTL, 0x80D, int)
#define IOCTL_GET_STATISTICS_POINTER _IOW(BCM_IOCTL, 0x80E, int)
#define IOCTL_CM_REQUEST _IOW(BCM_IOCTL, 0x80F, int)
typedef struct _NVM_READWRITE
{
void __user *pBuffer;
-// Data to be written from|read to. Memory should be allocated by the caller.
uint32_t uiOffset;
-// offset at which data should be written to or read from.
uint32_t uiNumBytes;
-// No. of bytes to be written or read.
bool bVerify;
-// Applicable only for write. If set verification of written data will be done.
} NVM_READWRITE, *PNVM_READWRITE;
typedef struct bulkwrmbuffer
} BULKWRM_BUFFER, *PBULKWRM_BUFFER;
-/***********Structure used for FlashMap2.x *******************************/
-
-/*
-* These are Sction present inside the Flash.
-* There is sectional RD/WR for flash Map 2.x.
-* hence these section will be used in read/write API.
-*/
-
typedef enum _FLASH2X_SECTION_VAL
{
- NO_SECTION_VAL = 0, //no section is chosen when absolute offset is given for RD/WR
+ NO_SECTION_VAL = 0, /* no section is chosen when absolute offset is given for RD/WR */
ISO_IMAGE1,
ISO_IMAGE2,
DSD0,
} FLASH2X_SECTION_VAL;
/*
-* Structure used for READ/WRITE Flash Map2.x
-*/
+ * Structure used for READ/WRITE Flash Map2.x
+ */
typedef struct _FLASH2X_READWRITE
{
- FLASH2X_SECTION_VAL Section; //which section has to be read/written
- B_UINT32 offset; //Offset within Section.
- B_UINT32 numOfBytes; //NOB from the offset
+ FLASH2X_SECTION_VAL Section; /* which section has to be read/written */
+ B_UINT32 offset; /* Offset within Section. */
+ B_UINT32 numOfBytes; /* NOB from the offset */
B_UINT32 bVerify;
- void __user *pDataBuff; //Buffer for reading/writing
+ void __user *pDataBuff; /* Buffer for reading/writing */
} FLASH2X_READWRITE, *PFLASH2X_READWRITE;
+
/*
-* This structure is used for coping one section to other.
-* there are two ways to copy one section to other.
-* it NOB =0, complete section will be copied on to other.
-* if NOB !=0, only NOB will be copied from the given offset.
-*/
+ * This structure is used for coping one section to other.
+ * there are two ways to copy one section to other.
+ * it NOB =0, complete section will be copied on to other.
+ * if NOB !=0, only NOB will be copied from the given offset.
+ */
typedef struct _FLASH2X_COPY_SECTION
{
- //Src Section from which Data has to be copied to DstSection
FLASH2X_SECTION_VAL SrcSection;
- //Destination Section from where Data has to be coppied.
FLASH2X_SECTION_VAL DstSection;
- //Offset within Section. if NOB =0 it will be ignored and data will be coped from offset 0.
B_UINT32 offset;
- //NOB from the offset. if NOB = 0 complete src section will be copied to Destination section.
B_UINT32 numOfBytes;
} FLASH2X_COPY_SECTION, *PFLASH2X_COPY_SECTION;
} SECTION_TYPE, *PSECTION_TYPE;
/*
-* This section provide the complete bitmap of the Flash.
-* using this map lib/APP will isssue read/write command.
- Fields are defined as :
- Bit [0] = section is present //1:present, 0: Not present
-* Bit [1] = section is valid //1: valid, 0: not valid
-* Bit [2] = Section is R/W //0: RW, 1: RO
-* Bit [3] = Section is Active or not 1 means Active, 0->inactive
-* Bit [7...3] = Reserved
-*/
+ * This section provide the complete bitmap of the Flash.
+ * using this map lib/APP will isssue read/write command.
+ * Fields are defined as :
+ * Bit [0] = section is present //1:present, 0: Not present
+ * Bit [1] = section is valid //1: valid, 0: not valid
+ * Bit [2] = Section is R/W //0: RW, 1: RO
+ * Bit [3] = Section is Active or not 1 means Active, 0->inactive
+ * Bit [7...3] = Reserved
+ */
typedef struct _FLASH2X_BITMAP
{
UCHAR VSA2;
UCHAR SCSI;
UCHAR CONTROL_SECTION;
- //Reserved for future use
+ /* Reserved for future use */
UCHAR Reserved0;
UCHAR Reserved1;
UCHAR Reserved2;
} FLASH2X_BITMAP, *PFLASH2X_BITMAP;
-//for net entry time check
typedef struct _ST_TIME_ELAPSED_
{
ULONG64 ul64TimeElapsedSinceNetEntry;
- UINT32 uiReserved[4]; //By chance if required for future proofing
+ UINT32 uiReserved[4];
} ST_TIME_ELAPSED, *PST_TIME_ELAPSED;
enum {
- WIMAX_IDX = 0, /*To access WiMAX chip GPIO's for GPIO_MULTI_INFO or GPIO_MULTI_MODE*/
- HOST_IDX, /*To access Host chip GPIO's for GPIO_MULTI_INFO or GPIO_MULTI_MODE*/
+ WIMAX_IDX = 0, /* To access WiMAX chip GPIO's for GPIO_MULTI_INFO or GPIO_MULTI_MODE */
+ HOST_IDX, /* To access Host chip GPIO's for GPIO_MULTI_INFO or GPIO_MULTI_MODE */
MAX_IDX
};
typedef struct stGPIOMultiInfo
{
- UINT uiGPIOCommand; /* 1 for set and 0 for get*/
- UINT uiGPIOMask; /* set the correspondig bit to 1 to access GPIO*/
- UINT uiGPIOValue; /* 0 or 1; value to be set when command is 1.*/
+ UINT uiGPIOCommand; /* 1 for set and 0 for get */
+ UINT uiGPIOMask; /* set the correspondig bit to 1 to access GPIO */
+ UINT uiGPIOValue; /* 0 or 1; value to be set when command is 1. */
} __attribute__((packed))GPIO_MULTI_INFO, *PGPIO_MULTI_INFO;
typedef struct stGPIOMultiMode
{
- UINT uiGPIOMode; /* 1 for OUT mode, 0 for IN mode*/
- UINT uiGPIOMask; /* GPIO mask to set mode*/
+ UINT uiGPIOMode; /* 1 for OUT mode, 0 for IN mode */
+ UINT uiGPIOMask; /* GPIO mask to set mode */
} __attribute__((packed))GPIO_MULTI_MODE, *PGPIO_MULTI_MODE;
#endif