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#define VERSION 0x910
#define LICENSE 0x952
#define TRANSFER 0x98c
#define MULTI_TRANSFER 0x98d
#define USB_TRANSFER 0x983
#define EVENT_UNREGISTER 0x987
#define INT_DISABLE 0x91f
#define INT_WAIT 0x94b
#define CARD_REGISTER 0x9a4
#define EVENT_REGISTER 0x9a5
#define CARD_UNREGISTER 0x92b
#define USB_GET_DEVICE_DATA 0x9a7
#define INT_ENABLE 0x98e
#define EVENT_PULL 0x988
#define USB_SET_INTERFACE 0x981
#define CARD_REGISTER_OLD 0x97d
#define INT_ENABLE_OLD 0x91e
#define USB_GET_DEVICE_DATA_OLD 0x980
#define EVENT_REGISTER_OLD 0x986
#define TRANSFER_OLD 0x903
#define MULTI_TRANSFER_OLD 0x904
#define MAGIC 0xa410b413UL
#define PP_DATA 0
#define PP_STATUS 1
#define PP_CONTROL 2
#define PP_ECP_CFGA 0
#define PP_ECP_CFGB 1
#define PP_ECP_ECR 2
#define PP_READ 10
#define PP_WRITE 13
#define PP_TDI 0x01
#define PP_TDO 0x10
#define PP_PROG 0x10
#define PP_TCK 0x02
#define PP_TMS 0x04
#define PP_CTRL 0x08
#ifdef DEBUG
#define DPRINTF(format, args...) fprintf(stderr, format, ##args)
#else
#define DPRINTF(format, args...)
#endif
void __attribute__ ((visibility ("hidden"))) hexdump(unsigned char *buf, int len, char *prefix);
#define WDU_GET_MAX_PACKET_SIZE(x) ((unsigned short) (((x) & 0x7ff) * (1 + (((x) & 0x1800) >> 11))))
/* http://www.jungo.com/support/documentation/windriver/811/wdusb_man_mhtml/node78.html#SECTION001734000000000000000 */
struct header_struct {
unsigned long magic;
void* data;
unsigned long size;
};
struct version_struct {
unsigned long versionul;
char version[128];
};
struct license_struct {
char cLicense[128]; // Buffer with license string to put.
// If empty string then get current license setting
// into dwLicense.
unsigned long dwLicense; // Returns license settings: LICENSE_DEMO, LICENSE_WD
// etc..., or 0 for invalid license.
unsigned long dwLicense2; // Returns additional license settings, if dwLicense
// could not hold all the information.
// Then dwLicense will return 0.
};
typedef struct
{
unsigned long dwVendorId;
unsigned long dwDeviceId;
} WD_PCI_ID;
typedef struct
{
unsigned long dwBus;
unsigned long dwSlot;
unsigned long dwFunction;
} WD_PCI_SLOT;
typedef struct
{
unsigned long dwVendorId;
unsigned long dwProductId;
} WD_USB_ID;
typedef struct
{
unsigned short VendorId;
unsigned short ProductId;
unsigned char bDeviceClass;
unsigned char bDeviceSubClass;
unsigned char bInterfaceClass;
unsigned char bInterfaceSubClass;
unsigned char bInterfaceProtocol;
} WDU_MATCH_TABLE;
typedef struct
{
unsigned long dwNumber; // Pipe 0 is the default pipe
unsigned long dwMaximumPacketSize;
unsigned long type; // USB_PIPE_TYPE
unsigned long direction; // WDU_DIR
// Isochronous, Bulk, Interrupt are either USB_DIR_IN or USB_DIR_OUT
// Control are USB_DIR_IN_OUT
unsigned long dwInterval; // interval in ms relevant to Interrupt pipes
} WD_USB_PIPE_INFO, WD_USB_PIPE_INFO_V43, WDU_PIPE_INFO;
#define WD_USB_MAX_PIPE_NUMBER 32
typedef struct
{
unsigned long dwPipes;
WD_USB_PIPE_INFO Pipe[WD_USB_MAX_PIPE_NUMBER];
} WD_USB_DEVICE_INFO, WD_USB_DEVICE_INFO_V43;
struct usb_transfer
{
unsigned long dwUniqueID;
unsigned long dwPipeNum; // Pipe number on device.
unsigned long fRead; // TRUE for read (IN) transfers; FALSE for write (OUT) transfers.
unsigned long dwOptions; // USB_TRANSFER options:
// USB_ISOCH_FULL_PACKETS_ONLY - For isochronous
// transfers only. If set, only full packets will be
// transmitted and the transfer function will return
// when the amount of bytes left to transfer is less
// than the maximum packet size for the pipe (the
// function will return without transmitting the
// remaining bytes).
void* pBuffer; // Pointer to buffer to read/write.
unsigned long dwBufferSize; // Amount of bytes to transfer.
unsigned long dwBytesTransferred; // Returns the number of bytes actually read/written
unsigned char SetupPacket[8]; // Setup packet for control pipe transfer.
unsigned long dwTimeout; // Timeout for the transfer in milliseconds. Set to 0 for infinite wait.
};
struct event {
unsigned long handle;
unsigned long dwAction; // WD_EVENT_ACTION
unsigned long dwStatus; // EVENT_STATUS
unsigned long dwEventId;
unsigned long dwCardType; //WD_BUS_PCI, WD_BUS_USB, WD_BUS_PCMCIA
unsigned long hKernelPlugIn;
unsigned long dwOptions; // WD_EVENT_OPTION
union
{
struct
{
WD_PCI_ID cardId;
WD_PCI_SLOT pciSlot;
} Pci;
struct
{
WD_USB_ID deviceId;
unsigned long dwUniqueID;
} Usb;
} u;
unsigned long dwEventVer;
unsigned long dwNumMatchTables;
WDU_MATCH_TABLE matchTables[1];
};
typedef struct
{
unsigned long dwBusType; // Bus Type: ISA, EISA, PCI, PCMCIA.
unsigned long dwBusNum; // Bus number.
unsigned long dwSlotFunc; // Slot number on Bus.
} WD_BUS, WD_BUS_V30;
typedef struct
{
unsigned long item; // ITEM_TYPE
unsigned long fNotSharable;
unsigned long dwReserved; // Reserved for internal use
unsigned long dwOptions; // WD_ITEM_OPTIONS
union
{
struct
{ // ITEM_MEMORY
unsigned long dwPhysicalAddr; // Physical address on card.
unsigned long dwBytes; // Address range.
void* dwTransAddr; // Returns the address to pass on to transfer commands.
void* dwUserDirectAddr; // Returns the address for direct user read/write.
unsigned long dwCpuPhysicalAddr; // Returns the CPU physical address
unsigned long dwBar; // Base Address Register number of PCI card.
} Mem;
struct
{ // ITEM_IO
void* dwAddr; // Beginning of io address.
unsigned long dwBytes; // IO range.
unsigned long dwBar; // Base Address Register number of PCI card.
} IO;
struct
{ // ITEM_INTERRUPT
unsigned long dwInterrupt; // Number of interrupt to install.
unsigned long dwOptions; // Interrupt options. For level sensitive
// interrupts - set to: INTERRUPT_LEVEL_SENSITIVE.
unsigned long hInterrupt; // Returns the handle of the interrupt installed.
} Int;
WD_BUS Bus; // ITEM_BUS
struct
{
unsigned long dw1, dw2, dw3, dw4; // Reserved for internal use
void* dw5; // Reserved for internal use
} Val;
} I;
} WD_ITEMS, WD_ITEMS_V30;
#define WD_CARD_ITEMS 20
typedef struct
{
unsigned long dwItems;
WD_ITEMS Item[WD_CARD_ITEMS];
} WD_CARD, WD_CARD_V30;
enum { CARD_VX_NO_MMU_INIT = 0x4000000 };
struct card_register
{
WD_CARD Card; // Card to register.
unsigned long fCheckLockOnly; // Only check if card is lockable, return hCard=1 if OK.
unsigned long hCard; // Handle of card.
unsigned long dwOptions; // Should be zero.
char cName[32]; // Name of card.
char cDescription[100]; // Description.
};
typedef struct
{
void* dwPort; // IO port for transfer or kernel memory address.
unsigned long cmdTrans; // Transfer command WD_TRANSFER_CMD.
// Parameters used for string transfers:
unsigned long dwBytes; // For string transfer.
unsigned long fAutoinc; // Transfer from one port/address
// or use incremental range of addresses.
unsigned long dwOptions; // Must be 0.
union
{
unsigned char Byte; // Use for 8 bit transfer.
unsigned short Word; // Use for 16 bit transfer.
uint32_t Dword; // Use for 32 bit transfer.
uint64_t Qword; // Use for 64 bit transfer.
void* pBuffer; // Use for string transfer.
} Data;
} WD_TRANSFER, WD_TRANSFER_V61;
typedef struct
{
unsigned long hKernelPlugIn;
unsigned long dwMessage;
void* pData;
unsigned long dwResult;
} WD_KERNEL_PLUGIN_CALL, WD_KERNEL_PLUGIN_CALL_V40;
struct interrupt
{
unsigned long hInterrupt; // Handle of interrupt.
unsigned long dwOptions; // Interrupt options: can be INTERRUPT_CMD_COPY
WD_TRANSFER *Cmd; // Commands to do on interrupt.
unsigned long dwCmds; // Number of commands.
// For WD_IntEnable():
WD_KERNEL_PLUGIN_CALL kpCall; // Kernel PlugIn call.
unsigned long fEnableOk; // TRUE if interrupt was enabled (WD_IntEnable() succeed).
// For WD_IntWait() and WD_IntCount():
unsigned long dwCounter; // Number of interrupts received.
unsigned long dwLost; // Number of interrupts not yet dealt with.
unsigned long fStopped; // Was interrupt disabled during wait.
};
struct usb_set_interface
{
unsigned long dwUniqueID;
unsigned long dwInterfaceNum;
unsigned long dwAlternateSetting;
unsigned long dwOptions;
};
struct usb_get_device_data
{
unsigned long dwUniqueID;
void* pBuf;
unsigned long dwBytes;
unsigned long dwOptions;
};
#define WD_USB_MAX_INTERFACES 30
typedef struct
{
unsigned char bLength;
unsigned char bDescriptorType;
unsigned char bInterfaceNumber;
unsigned char bAlternateSetting;
unsigned char bNumEndpoints;
unsigned char bInterfaceClass;
unsigned char bInterfaceSubClass;
unsigned char bInterfaceProtocol;
unsigned char iInterface;
} WDU_INTERFACE_DESCRIPTOR;
typedef struct
{
unsigned char bLength;
unsigned char bDescriptorType;
unsigned char bEndpointAddress;
unsigned char bmAttributes;
unsigned short wMaxPacketSize;
unsigned char bInterval;
} WDU_ENDPOINT_DESCRIPTOR;
typedef struct
{
unsigned char bLength;
unsigned char bDescriptorType;
unsigned short wTotalLength;
unsigned char bNumInterfaces;
unsigned char bConfigurationValue;
unsigned char iConfiguration;
unsigned char bmAttributes;
unsigned char MaxPower;
} WDU_CONFIGURATION_DESCRIPTOR;
typedef struct
{
unsigned char bLength;
unsigned char bDescriptorType;
unsigned short bcdUSB;
unsigned char bDeviceClass;
unsigned char bDeviceSubClass;
unsigned char bDeviceProtocol;
unsigned char bMaxPacketSize0;
unsigned short idVendor;
unsigned short idProduct;
unsigned short bcdDevice;
unsigned char iManufacturer;
unsigned char iProduct;
unsigned char iSerialNumber;
unsigned char bNumConfigurations;
} WDU_DEVICE_DESCRIPTOR;
typedef struct
{
WDU_INTERFACE_DESCRIPTOR Descriptor;
WDU_ENDPOINT_DESCRIPTOR *pEndpointDescriptors;
WDU_PIPE_INFO *pPipes;
} WDU_ALTERNATE_SETTING;
typedef struct
{
WDU_ALTERNATE_SETTING *pAlternateSettings;
unsigned long dwNumAltSettings;
WDU_ALTERNATE_SETTING *pActiveAltSetting;
} WDU_INTERFACE;
typedef struct
{
WDU_CONFIGURATION_DESCRIPTOR Descriptor;
unsigned long dwNumInterfaces;
WDU_INTERFACE *pInterfaces;
} WDU_CONFIGURATION;
struct usb_device_info {
WDU_DEVICE_DESCRIPTOR Descriptor;
WDU_PIPE_INFO Pipe0;
WDU_CONFIGURATION *pConfigs;
WDU_CONFIGURATION *pActiveConfig;
WDU_INTERFACE *pActiveInterface[WD_USB_MAX_INTERFACES];
};
typedef enum {
WDU_DIR_IN = 1,
WDU_DIR_OUT = 2,
WDU_DIR_IN_OUT = 3
} WDU_DIR;
typedef enum {
PIPE_TYPE_CONTROL = 0,
PIPE_TYPE_ISOCHRONOUS = 1,
PIPE_TYPE_BULK = 2,
PIPE_TYPE_INTERRUPT = 3
} USB_PIPE_TYPE;