c1284fc3b6
git-svn-id: svn://kolibrios.org@3520 a494cfbc-eb01-0410-851d-a64ba20cac60
697 lines
24 KiB
NASM
697 lines
24 KiB
NASM
; standard driver stuff
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format MS COFF
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DEBUG = 1
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; this is for DEBUGF macro from 'fdo.inc'
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__DEBUG__ = 1
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__DEBUG_LEVEL__ = 1
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include 'proc32.inc'
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include 'imports.inc'
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include 'fdo.inc'
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public START
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public version
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; USB constants
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DEVICE_DESCR_TYPE = 1
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CONFIG_DESCR_TYPE = 2
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STRING_DESCR_TYPE = 3
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INTERFACE_DESCR_TYPE = 4
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ENDPOINT_DESCR_TYPE = 5
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DEVICE_QUALIFIER_DESCR_TYPE = 6
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CONTROL_PIPE = 0
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ISOCHRONOUS_PIPE = 1
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BULK_PIPE = 2
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INTERRUPT_PIPE = 3
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; USB structures
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virtual at 0
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config_descr:
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.bLength db ?
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.bDescriptorType db ?
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.wTotalLength dw ?
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.bNumInterfaces db ?
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.bConfigurationValue db ?
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.iConfiguration db ?
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.bmAttributes db ?
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.bMaxPower db ?
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.sizeof:
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end virtual
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virtual at 0
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interface_descr:
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.bLength db ?
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.bDescriptorType db ?
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.bInterfaceNumber db ?
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.bAlternateSetting db ?
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.bNumEndpoints db ?
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.bInterfaceClass db ?
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.bInterfaceSubClass db ?
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.bInterfaceProtocol db ?
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.iInterface db ?
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.sizeof:
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end virtual
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virtual at 0
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endpoint_descr:
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.bLength db ?
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.bDescriptorType db ?
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.bEndpointAddress db ?
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.bmAttributes db ?
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.wMaxPacketSize dw ?
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.bInterval db ?
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.sizeof:
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end virtual
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; Driver data for all devices
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virtual at 0
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device_data:
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.type dd ? ; 1 = keyboard, 2 = mouse
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.intpipe dd ? ; interrupt pipe handle
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.packetsize dd ?
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.packet rb 8 ; packet with data from device
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.control rb 8 ; control packet to device
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.sizeof:
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end virtual
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; Driver data for mouse
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virtual at device_data.sizeof
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mouse_data:
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; no additional data
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.sizeof:
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end virtual
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; Driver data for keyboard
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virtual at device_data.sizeof
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keyboard_data:
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.handle dd ? ; keyboard handle from RegKeyboard
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.configpipe dd ? ; config pipe handle
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.prevpacket rb 8 ; previous packet with data from device
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.timer dd ? ; auto-repeat timer handle
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.repeatkey db ? ; auto-repeat key code
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.ledstate db ? ; state of LEDs
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align 4
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.sizeof:
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end virtual
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section '.flat' code readable align 16
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; The start procedure.
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START:
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; 1. Test whether the procedure is called with the argument DRV_ENTRY.
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; If not, return 0.
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xor eax, eax ; initialize return value
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cmp dword [esp+4], 1 ; compare the argument
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jnz .nothing
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; 2. Register self as a USB driver.
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; The name is my_driver = 'usbhid'; IOCTL interface is not supported;
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; usb_functions is an offset of a structure with callback functions.
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stdcall RegUSBDriver, my_driver, eax, usb_functions
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; 3. Return the returned value of RegUSBDriver.
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.nothing:
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ret 4
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; This procedure is called when new HID device is detected.
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; It initializes the device.
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AddDevice:
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; Arguments are addressed through esp. In this point of the function,
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; [esp+4] = a handle of the config pipe, [esp+8] points to config_descr
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; structure, [esp+12] points to interface_descr structure.
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; 1. Check device type. Currently only mice and keyboards with
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; boot protocol are supported.
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; 1a. Get the subclass and the protocol. Since bInterfaceSubClass and
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; bInterfaceProtocol are subsequent in interface_descr, just one
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; memory reference is used for both.
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mov edx, [esp+12]
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push ebx ; save used register to be stdcall
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mov cx, word [edx+interface_descr.bInterfaceSubClass]
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; 1b. For boot protocol, subclass must be 1 and protocol must be either 1 for
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; a keyboard or 2 for a mouse. Check.
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cmp cx, 0x0101
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jz .keyboard
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cmp cx, 0x0201
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jz .mouse
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; 1c. If the device is neither a keyboard nor a mouse, print a message and
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; go to 6c.
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DEBUGF 1,'K : unknown HID device\n'
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jmp .nothing
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; 1d. If the device is a keyboard or a mouse, print a message and continue
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; configuring.
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.keyboard:
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DEBUGF 1,'K : USB keyboard detected\n'
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push keyboard_data.sizeof
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jmp .common
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.mouse:
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DEBUGF 1,'K : USB mouse detected\n'
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push mouse_data.sizeof
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.common:
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; 2. Allocate memory for device data.
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pop eax ; get size of device data
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; 2a. Call the kernel, saving and restoring register edx.
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push edx
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call Kmalloc
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pop edx
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; 2b. Check result. If failed, say a message and go to 6c.
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test eax, eax
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jnz @f
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DEBUGF 1,'K : no memory\n'
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jmp .nothing
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@@:
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xchg eax, ebx
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; HID devices use one IN interrupt endpoint for polling the device
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; and an optional OUT interrupt endpoint. We do not use the later,
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; but must locate the first. Look for the IN interrupt endpoint.
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; 3. Get the upper bound of all descriptors' data.
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mov eax, [esp+8+4] ; configuration descriptor
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movzx ecx, [eax+config_descr.wTotalLength]
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add eax, ecx
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; 4. Loop over all descriptors until
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; either end-of-data reached - this is fail
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; or interface descriptor found - this is fail, all further data
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; correspond to that interface
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; or endpoint descriptor found.
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; 4a. Loop start: eax points to the interface descriptor.
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.lookep:
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; 4b. Get next descriptor.
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movzx ecx, byte [edx] ; the first byte of all descriptors is length
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add edx, ecx
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; 4c. Check that at least two bytes are readable. The opposite is an error.
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inc edx
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cmp edx, eax
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jae .errorep
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dec edx
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; 4d. Check that this descriptor is not interface descriptor. The opposite is
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; an error.
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cmp byte [edx+endpoint_descr.bDescriptorType], INTERFACE_DESCR_TYPE
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jz .errorep
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; 4e. Test whether this descriptor is an endpoint descriptor. If not, continue
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; the loop.
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cmp byte [edx+endpoint_descr.bDescriptorType], ENDPOINT_DESCR_TYPE
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jnz .lookep
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; 5. Check that the descriptor contains all required data and all data are
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; readable. If so, proceed to 7.
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cmp byte [edx+endpoint_descr.bLength], endpoint_descr.sizeof
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jb .errorep
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sub eax, endpoint_descr.sizeof
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cmp edx, eax
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jbe @f
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; 6. An error occured during processing endpoint descriptor.
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.errorep:
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; 6a. Print a message.
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DEBUGF 1,'K : error: invalid endpoint descriptor\n'
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; 6b. Free memory allocated for device data.
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.free:
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xchg eax, ebx
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call Kfree
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.nothing:
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; 6c. Return an error.
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xor eax, eax
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pop ebx
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ret 12
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@@:
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; 7. Check that the endpoint is IN interrupt endpoint. If not, go to 6.
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test [edx+endpoint_descr.bEndpointAddress], 80h
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jz .errorep
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mov cl, [edx+endpoint_descr.bmAttributes]
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and cl, 3
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cmp cl, INTERRUPT_PIPE
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jnz .errorep
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; 8. Open pipe for the endpoint.
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; 8a. Load parameters from the descriptor.
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movzx ecx, [edx+endpoint_descr.bEndpointAddress]
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movzx eax, [edx+endpoint_descr.bInterval]
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movzx edx, [edx+endpoint_descr.wMaxPacketSize]
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; 8b. Call the kernel, saving and restoring edx.
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push edx
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stdcall USBOpenPipe, [esp+4+24], ecx, edx, INTERRUPT_PIPE, eax
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pop edx
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; 8c. Check result. If failed, go to 6b.
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test eax, eax
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jz .free
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; We use 12 bytes for device type, interrupt pipe and interrupt packet size,
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; 8 bytes for a packet and 8 bytes for previous packet, used by a keyboard.
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; 9. Initialize device data.
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mov [ebx+device_data.intpipe], eax
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push 8
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pop ecx
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cmp edx, ecx
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jb @f
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mov edx, ecx
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@@:
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xor eax, eax
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mov [ebx+device_data.packetsize], edx
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mov dword [ebx+device_data.packet], eax
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mov dword [ebx+device_data.packet+4], eax
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mov edx, [esp+12+4] ; interface descriptor
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movzx ecx, [edx+interface_descr.bInterfaceProtocol]
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mov [ebx+device_data.type], ecx
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cmp ecx, 1
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jnz @f
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mov [ebx+keyboard_data.handle], eax
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mov [ebx+keyboard_data.timer], eax
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mov [ebx+keyboard_data.repeatkey], al
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mov dword [ebx+keyboard_data.prevpacket], eax
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mov dword [ebx+keyboard_data.prevpacket+4], eax
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mov eax, [esp+4+4]
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mov [ebx+keyboard_data.configpipe], eax
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@@:
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; 10. Send the control packet SET_PROTOCOL(Boot Protocol) to the interface.
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lea eax, [ebx+device_data.control]
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mov dword [eax], 21h + (0Bh shl 8) + (0 shl 16) ; class request to interface + SET_PROTOCOL + Boot protocol
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and dword [eax+4], 0
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mov dl, [edx+interface_descr.bInterfaceNumber]
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mov [eax+4], dl
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; Callback function is mouse_configured for mice and keyboard_configured1 for keyboards.
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mov edx, keyboard_configured1
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cmp ecx, 1
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jz @f
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mov edx, mouse_configured
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@@:
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stdcall USBControlTransferAsync, [esp+4+28], eax, 0, 0, edx, ebx, 0
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; 11. Return with pointer to device data as returned value.
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xchg eax, ebx
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pop ebx
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ret 12
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; This function is called when SET_PROTOCOL command for keyboard is done,
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; either successful or unsuccessful.
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keyboard_configured1:
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xor edx, edx
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; 1. Check the status of the transfer.
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; If the transfer was failed, go to the common error handler.
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cmp dword [esp+8], edx ; status is zero?
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jnz keyboard_data_ready.error
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; 2. Send the control packet SET_IDLE(infinity). HID auto-repeat is not useful.
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mov eax, [esp+20]
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push edx ; flags for USBControlTransferAsync
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push eax ; userdata for USBControlTransferAsync
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add eax, device_data.control
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mov dword [eax], 21h + (0Ah shl 8) + (0 shl 24) ; class request to interface + SET_IDLE + no autorepeat
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stdcall USBControlTransferAsync, dword [eax+keyboard_data.configpipe-device_data.control], \
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eax, edx, edx, keyboard_configured2; , <userdata>, <flags>
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; 3. Return.
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ret 20
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; This function is called when SET_IDLE command for keyboard is done,
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; either successful or unsuccessful.
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keyboard_configured2:
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; Check the status of the transfer and go to the corresponding label
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; in the main handler.
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cmp dword [esp+8], 0
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jnz keyboard_data_ready.error
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mov edx, [esp+20]
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push edx
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stdcall RegKeyboard, usbkbd_functions, edx
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pop edx
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mov [edx+keyboard_data.handle], eax
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jmp keyboard_data_ready.next
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; This function is called when another interrupt packet arrives,
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; processed either successfully or unsuccessfully.
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; It should parse the packet and initiate another transfer with
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; the same callback function.
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keyboard_data_ready:
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; 1. Check the status of the transfer.
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mov eax, [esp+8]
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test eax, eax
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jnz .error
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; Parse the packet, comparing with the previous packet.
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; For boot protocol, USB keyboard packet consists of the first byte
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; with status keys that are currently pressed. The second byte should
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; be ignored, and other 5 bytes denote keys that are currently pressed.
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push esi ebx ; save used registers to be stdcall
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; 2. Process control keys.
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; 2a. Initialize before loop for control keys. edx = mask for control bits
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; that were changed.
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mov ebx, [esp+20+8]
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movzx edx, byte [ebx+device_data.packet] ; get state of control keys
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xor dl, byte [ebx+keyboard_data.prevpacket] ; compare with previous state
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; 2b. If state of control keys has not changed, advance to 3.
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jz .nocontrol
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; 2c. Otherwise, loop over control keys; esi = bit number.
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xor esi, esi
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.controlloop:
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; 2d. Skip bits that have not changed.
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bt edx, esi
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jnc .controlnext
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push edx ; save register which is possibly modified by API
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; The state of the current control key has changed.
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; 2e. For extended control keys, send the prefix 0xE0.
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mov al, [control_keys+esi]
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test al, al
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jns @f
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push eax
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mov ecx, 0xE0
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call SetKeyboardData
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pop eax
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and al, 0x7F
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@@:
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; 2f. If the current state of the control key is "pressed", send normal
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; scancode. Otherwise, the key is released, so set the high bit in scancode.
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movzx ecx, al
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bt dword [ebx+device_data.packet], esi
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jc @f
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or cl, 0x80
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@@:
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call SetKeyboardData
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pop edx ; restore register which was possibly modified by API
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.controlnext:
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; 2g. We have 8 control keys.
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inc esi
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cmp esi, 8
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jb .controlloop
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.nocontrol:
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; 3. Initialize before loop for normal keys. esi = index.
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push 2
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pop esi
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.normalloop:
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; 4. Process one key which was pressed in the previous packet.
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; 4a. Get the next pressed key from the previous packet.
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movzx eax, byte [ebx+esi+keyboard_data.prevpacket]
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; 4b. Ignore special codes.
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cmp al, 3
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jbe .normalnext1
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; 4c. Ignore keys that are still pressed in the current packet.
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lea ecx, [ebx+device_data.packet]
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call haskey
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jz .normalnext1
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; 4d. Say warning about keys with strange codes.
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cmp eax, normal_keys_number
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jae .badkey1
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movzx ecx, [normal_keys+eax]
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jecxz .badkey1
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; 4e. For extended keys, send the prefix 0xE0.
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push ecx ; save keycode
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test cl, cl
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jns @f
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push ecx
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mov ecx, 0xE0
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call SetKeyboardData
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pop ecx
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@@:
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; 4f. Send the release event.
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or cl, 0x80
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call SetKeyboardData
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; 4g. If this key is autorepeating, stop the timer.
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pop ecx ; restore keycode
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cmp cl, [ebx+keyboard_data.repeatkey]
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jnz .normalnext1
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mov eax, [ebx+keyboard_data.timer]
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test eax, eax
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jz .normalnext1
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stdcall CancelTimerHS, eax
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and [ebx+keyboard_data.timer], 0
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jmp .normalnext1
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.badkey1:
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DEBUGF 1,'K : unknown keycode: %x\n',al
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.normalnext1:
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; 5. Process one key which is pressed in the current packet.
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; 5a. Get the next pressed key from the current packet.
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movzx eax, byte [ebx+esi+device_data.packet]
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; 5b. Ignore special codes.
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cmp al, 3
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jbe .normalnext2
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; 5c. Ignore keys that were already pressed in the previous packet.
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lea ecx, [ebx+keyboard_data.prevpacket]
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call haskey
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jz .normalnext2
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; 5d. Say warning about keys with strange codes.
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cmp eax, normal_keys_number
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jae .badkey2
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movzx ecx, [normal_keys+eax]
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jecxz .badkey2
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; 5e. For extended keys, send the prefix 0xE0.
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push ecx ; save keycode
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test cl, cl
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jns @f
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push ecx
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mov ecx, 0xE0
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call SetKeyboardData
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pop ecx
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@@:
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; 5f. Send the press event.
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and cl, not 0x80
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call SetKeyboardData
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; 5g. Stop the current auto-repeat timer, if present.
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mov eax, [ebx+keyboard_data.timer]
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test eax, eax
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jz @f
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stdcall CancelTimerHS, eax
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@@:
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; 5h. Start the auto-repeat timer.
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pop ecx ; restore keycode
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mov [ebx+keyboard_data.repeatkey], cl
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stdcall TimerHS, 25, 5, autorepeat_timer, ebx
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mov [ebx+keyboard_data.timer], eax
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jmp .normalnext2
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.badkey2:
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DEBUGF 1,'K : unknown keycode: %x\n',al
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.normalnext2:
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; 6. Advance to next key.
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inc esi
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cmp esi, 8
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jb .normalloop
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; 7. Save the packet data for future reference.
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mov eax, dword [ebx+device_data.packet]
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mov dword [ebx+keyboard_data.prevpacket], eax
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mov eax, dword [ebx+device_data.packet+4]
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mov dword [ebx+keyboard_data.prevpacket+4], eax
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pop ebx esi ; restore registers to be stdcall
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.next:
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; 8. Initiate transfer on the interrupt pipe.
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mov eax, [esp+20]
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push 1 ; flags for USBNormalTransferAsync
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push eax ; userdata for USBNormalTransferAsync
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add eax, device_data.packet
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stdcall USBNormalTransferAsync, dword [eax+device_data.intpipe-device_data.packet], \
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eax, dword [eax+device_data.packetsize-device_data.packet], \
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keyboard_data_ready;, <userdata>, <flags>
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; 9. Return.
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.nothing:
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ret 20
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.error:
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; An error has occured.
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; 10. If an error is caused by the disconnect, do nothing, it is handled
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; in DeviceDisconnected. Otherwise, say a message.
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cmp eax, 16
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jz @f
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push esi
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mov esi, errormsgkbd
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call SysMsgBoardStr
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pop esi
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@@:
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ret 20
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; Auxiliary procedure for keyboard_data_ready.
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haskey:
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push 2
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pop edx
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|
@@:
|
|
cmp byte [ecx+edx], al
|
|
jz @f
|
|
inc edx
|
|
cmp edx, 7
|
|
jbe @b
|
|
@@:
|
|
ret
|
|
|
|
; Timer function for auto-repeat.
|
|
autorepeat_timer:
|
|
mov eax, [esp+4]
|
|
movzx ecx, [eax+keyboard_data.repeatkey]
|
|
test cl, cl
|
|
jns @f
|
|
push ecx
|
|
mov ecx, 0xE0
|
|
call SetKeyboardData
|
|
pop ecx
|
|
and cl, not 0x80
|
|
@@:
|
|
call SetKeyboardData
|
|
ret 4
|
|
|
|
; This function is called to update LED state on the keyboard.
|
|
SetKeyboardLights:
|
|
mov eax, [esp+4]
|
|
add eax, device_data.control
|
|
mov dword [eax], 21h + (9 shl 8) + (2 shl 24)
|
|
; class request to interface + SET_REPORT + Output zero report
|
|
mov byte [eax+6], 1
|
|
mov edx, [esp+8]
|
|
shr dl, 1
|
|
jnc @f
|
|
or dl, 4
|
|
@@:
|
|
lea ecx, [eax+keyboard_data.ledstate-device_data.control]
|
|
mov [ecx], dl
|
|
stdcall USBControlTransferAsync, dword [eax+keyboard_data.configpipe-device_data.control], \
|
|
eax, ecx, 1, keyboard_data_ready.nothing, 0, 0
|
|
ret 8
|
|
|
|
; This function is called when it is safe to free keyboard data.
|
|
CloseKeyboard:
|
|
mov eax, [esp+4]
|
|
push ebx
|
|
call Kfree
|
|
pop ebx
|
|
ret 4
|
|
|
|
; This function is called when SET_PROTOCOL command for mouse is done,
|
|
; either successful or unsuccessful.
|
|
mouse_configured:
|
|
; Check the status of the transfer and go to the corresponding label
|
|
; in the main handler.
|
|
cmp dword [esp+8], 0
|
|
jnz mouse_data_ready.error
|
|
mov eax, [esp+20]
|
|
add eax, device_data.packet
|
|
jmp mouse_data_ready.next
|
|
|
|
; This function is called when another interrupt packet arrives,
|
|
; processed either successfully or unsuccessfully.
|
|
; It should parse the packet and initiate another transfer with
|
|
; the same callback function.
|
|
mouse_data_ready:
|
|
; 1. Check the status of the transfer.
|
|
mov eax, [esp+8]
|
|
test eax, eax
|
|
jnz .error
|
|
mov edx, [esp+16]
|
|
; 2. Parse the packet.
|
|
; For boot protocol, USB mouse packet consists of at least 3 bytes.
|
|
; The first byte is state of mouse buttons, the next two bytes are
|
|
; x and y movements.
|
|
; Normal mice do not distinguish between boot protocol and report protocol;
|
|
; in this case, scroll data are also present. Advanced mice, however,
|
|
; support two different protocols, boot protocol is used for compatibility
|
|
; and does not contain extended buttons or scroll data.
|
|
mov eax, [esp+12] ; buffer
|
|
push eax
|
|
xor ecx, ecx
|
|
cmp edx, 4
|
|
jbe @f
|
|
movsx ecx, byte [eax+4]
|
|
@@:
|
|
push ecx
|
|
xor ecx, ecx
|
|
cmp edx, 3
|
|
jbe @f
|
|
movsx ecx, byte [eax+3]
|
|
neg ecx
|
|
@@:
|
|
push ecx
|
|
xor ecx, ecx
|
|
cmp edx, 2
|
|
jbe @f
|
|
movsx ecx, byte [eax+2]
|
|
neg ecx
|
|
@@:
|
|
push ecx
|
|
movsx ecx, byte [eax+1]
|
|
push ecx
|
|
movzx ecx, byte [eax]
|
|
push ecx
|
|
call SetMouseData
|
|
pop eax
|
|
.next:
|
|
; 3. Initiate transfer on the interrupt pipe.
|
|
stdcall USBNormalTransferAsync, dword [eax+device_data.intpipe-device_data.packet], \
|
|
eax, dword [eax+device_data.packetsize-device_data.packet], mouse_data_ready, eax, 1
|
|
; 4. Return.
|
|
ret 20
|
|
.error:
|
|
; An error has occured.
|
|
; 5. If an error is caused by the disconnect, do nothing, it is handled
|
|
; in DeviceDisconnected. Otherwise, say a message.
|
|
cmp eax, 16
|
|
jz @f
|
|
push esi
|
|
mov esi, errormsgmouse
|
|
call SysMsgBoardStr
|
|
pop esi
|
|
@@:
|
|
ret 20
|
|
|
|
; This function is called when the device is disconnected.
|
|
DeviceDisconnected:
|
|
push ebx ; save used register to be stdcall
|
|
; 1. Say a message. Use different messages for keyboards and mice.
|
|
mov ebx, [esp+4+4]
|
|
push esi
|
|
mov esi, disconnectmsgk
|
|
cmp byte [ebx+device_data.type], 1
|
|
jz @f
|
|
mov esi, disconnectmsgm
|
|
@@:
|
|
stdcall SysMsgBoardStr
|
|
pop esi
|
|
; 2. If device is keyboard, then we must unregister it as a keyboard and
|
|
; possibly stop the auto-repeat timer.
|
|
cmp byte [ebx+device_data.type], 1
|
|
jnz .nokbd
|
|
mov eax, [ebx+keyboard_data.timer]
|
|
test eax, eax
|
|
jz @f
|
|
stdcall CancelTimerHS, eax
|
|
@@:
|
|
mov ecx, [ebx+keyboard_data.handle]
|
|
jecxz .nokbd
|
|
stdcall DelKeyboard, ecx
|
|
; If keyboard is registered, then we should free data in CloseKeyboard, not here.
|
|
jmp .nothing
|
|
.nokbd:
|
|
; 3. Free the device data.
|
|
xchg eax, ebx
|
|
call Kfree
|
|
; 4. Return.
|
|
.nothing:
|
|
pop ebx ; restore used register to be stdcall
|
|
ret 4 ; purge one dword argument to be stdcall
|
|
|
|
; strings
|
|
my_driver db 'usbhid',0
|
|
errormsgmouse db 'K : USB transfer error, disabling mouse',10,0
|
|
errormsgkbd db 'K : USB transfer error, disabling keyboard',10,0
|
|
disconnectmsgm db 'K : USB mouse disconnected',10,0
|
|
disconnectmsgk db 'K : USB keyboard disconnected',10,0
|
|
|
|
; data for keyboard: correspondence between HID usage keys and PS/2 scancodes.
|
|
EX = 80h
|
|
label control_keys byte
|
|
db 1Dh, 2Ah, 38h, 5Bh+EX, 1Dh+EX, 36h, 38h+EX, 5Ch+EX
|
|
label normal_keys byte
|
|
db 00h, 00h, 00h, 00h, 1Eh, 30h, 2Eh, 20h, 12h, 21h, 22h, 23h, 17h, 24h, 25h, 26h ; 0x
|
|
db 32h, 31h, 18h, 19h, 10h, 13h, 1Fh, 14h, 16h, 2Fh, 11h, 2Dh, 15h, 2Ch, 02h, 03h ; 1x
|
|
db 04h, 05h, 06h, 07h, 08h, 09h, 0Ah, 0Bh, 1Ch, 01h, 0Eh, 0Fh, 39h, 0Ch, 0Dh, 1Ah ; 2x
|
|
db 1Bh, 2Bh, 2Bh, 27h, 28h, 29h, 33h, 34h, 35h, 3Ah, 3Bh, 3Ch, 3Dh, 3Eh, 3Fh, 40h ; 3x
|
|
db 41h, 42h, 43h, 44h, 57h, 58h,37h+EX,46h,0,52h+EX,47h+EX,49h+EX,53h+EX,4Fh+EX,51h+EX,4Dh+EX ; 4x
|
|
db 4Bh+EX,50h+EX,48h+EX,45h,35h+EX,37h,4Ah,4Eh,1Ch+EX,4Fh,50h,51h,4Bh,4Ch,4Dh,47h ; 5x
|
|
db 48h, 49h, 52h, 53h, 56h,5Dh+EX,5Eh+EX,59h,64h,65h,66h, 67h, 68h, 69h, 6Ah, 6Bh ; 6x
|
|
db 6Ch, 6Dh, 6Eh, 76h, 00h, 00h, 00h, 00h, 00h, 00h, 00h, 00h, 00h, 00h, 00h, 00h ; 7x
|
|
db 00h, 00h, 00h, 00h, 00h, 7Eh, 00h, 73h, 70h, 7Dh, 79h, 7Bh, 5Ch, 00h, 00h, 00h ; 8x
|
|
db 0F2h,0F1h,78h, 77h, 76h
|
|
normal_keys_number = $ - normal_keys
|
|
|
|
; Exported variable: kernel API version.
|
|
align 4
|
|
version dd 50005h
|
|
; Structure with callback functions.
|
|
usb_functions:
|
|
dd 12
|
|
dd AddDevice
|
|
dd DeviceDisconnected
|
|
|
|
; Structure with callback functions for keyboards.
|
|
usbkbd_functions:
|
|
dd 12
|
|
dd CloseKeyboard
|
|
dd SetKeyboardLights
|
|
|
|
; for DEBUGF macro
|
|
include_debug_strings
|
|
|
|
; for uninitialized data
|
|
section '.data' data readable writable align 16
|