Difference between revisions of "Unit PL110"

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=== Description ===
 
=== Description ===
 
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'''ARM PrimeCell PL110 Color LCD Controller Driver unit'''
  
 
The ARM PrimeCell PL110 Color LCD Controller is a AMBA compliant module that provides LCD display support for both TFT and STN displays in a variety of configurations.
 
The ARM PrimeCell PL110 Color LCD Controller is a AMBA compliant module that provides LCD display support for both TFT and STN displays in a variety of configurations.

Revision as of 05:50, 19 December 2016

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Description


ARM PrimeCell PL110 Color LCD Controller Driver unit

The ARM PrimeCell PL110 Color LCD Controller is a AMBA compliant module that provides LCD display support for both TFT and STN displays in a variety of configurations.

While the controller supports TFT displays it differs from other TFT display controllers because it has a DMA interface to system memory rather than using SPI or other serial transfer protocols.

Currently this driver only supports the setup required for the QEMU VersatilePB target however it is possible to support additional configurations by adding more variations of the PL110FramebufferCreate functions (eg PL110FramebufferCreateSTN etc).

Note: The driver does not include support for FRAMEBUFFER_FLAG_SYNC as the QEMU emulation of the device does not provide interrupt support at present.

Constants



PL110 specific constants PL110_*
PL110_FRAMEBUFFER_DESCRIPTION = 'ARM PrimeCell PL110 Color LCD'; Description of PL110 device


PL110 mode constants PL110_MODE_*
PL110_MODE_UNKNOWN = 0;  
PL110_MODE_VGA = 1; Connected to a VGA display
PL110_MODE_SVGA = 2; Connected to a SVGA display
PL110_MODE_TFT = 3; Connected to a TFT display
PL110_MODE_STN = 4; Connected to an STN display


PL110 register offset constants PL110_CLCD_*
See: http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0161e/I913915.html
 
PL110_CLCD_TIMING0 = $00000000; Horizontal Axis Panel Control Register
PL110_CLCD_TIMING1 = $00000004; Vertical Axis Panel Control Register
PL110_CLCD_TIMING2 = $00000008; Clock and Signal Polarity Control Register
PL110_CLCD_TIMING3 = $0000000c; Line End Control Register
PL110_CLCD_UPBASE = $00000010; Upper Panel Frame Base Address Registers
PL110_CLCD_LPBASE = $00000014; Lower Panel Frame Base Address Registers
PL110_CLCD_CONTROL = $00000018; Control Register Note: Reversed in VersatilePB implementation, 0x0000001c in PL110 TRM
PL110_CLCD_IMSC = $0000001c; Interrupt Mask Set/Clear Register Note: Reversed in VersatilePB implementation, 0x00000018 in PL110 TRM
PL110_CLCD_RIS = $00000020; Raw Interrupt Status Register
PL110_CLCD_MIS = $00000024; Masked Interrupt Status Register
PL110_CLCD_ICR = $00000028; Interrupt Clear Register
PL110_CLCD_UPCURR = $0000002C; Upper Panel Current Address Value Registers
PL110_CLCD_LPCURR = $00000030; Lower Panel Current Address Value Registers
PL110_CLCD_PALETTE = $00000200; Color Palette Register


PL110 CLCD Timing0 constants PL110_CLCD_TIMING0_*
See: http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0161e/I913915.html
 
PL110_CLCD_TIMING0_HBP = ($FF shl 24); Horizontal back porch
PL110_CLCD_TIMING0_HFP = ($FF shl 16); Horizontal front porch
PL110_CLCD_TIMING0_HSW = ($FF shl 8); Horizontal synchronization pulse width
PL110_CLCD_TIMING0_PPL = ($FC shl 2); Pixels-per-line (Actual pixels-per-line = 16 * (PPL + 1))


PL110 CLCD Timing1 constants PL110_CLCD_TIMING1_*
See: http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0161e/I913915.html
 
PL110_CLCD_TIMING1_VBP = ($FF shl 24); Vertical back porch
PL110_CLCD_TIMING1_VFP = ($FF shl 16); Vertical front porch
PL110_CLCD_TIMING1_VSW = ($FC shl 10); Vertical synchronization pulse width
PL110_CLCD_TIMING1_LPP = ($3FF shl 0); Lines per panel is the number of active lines per screen (Program to number of lines required minus 1)


PL110 CLCD Timing2 constants PL110_CLCD_TIMING2_*
See: http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0161e/I913915.html
 
PL110_CLCD_TIMING2_PCD_HI = ($1F shl 27); Upper five bits of Panel Clock Divisor
PL110_CLCD_TIMING2_BCD = (1 shl 26); Bypass pixel clock divider
PL110_CLCD_TIMING2_CPL = ($3FF shl 16); Clocks per line
PL110_CLCD_TIMING2_IOE = (1 shl 14); Invert output enable
PL110_CLCD_TIMING2_IPC = (1 shl 13); Invert panel clock
PL110_CLCD_TIMING2_IHS = (1 shl 12); Invert horizontal synchron
PL110_CLCD_TIMING2_IVS = (1 shl 11); Invert vertical synchronization
PL110_CLCD_TIMING2_ACB = ($1F shl 6); AC bias pin frequency
PL110_CLCD_TIMING2_CLKSEL = (1 shl 5); This bit drives the CLCDCLKSEL signal which is used as the select signal for the external LCD clock multiplexor
PL110_CLCD_TIMING2_PCD_LO = ($1F shl 0); Lower five bits of Panel Clock Divisor


PL110 CLCD Timing3 constants PL110_CLCD_TIMING3_*
See: http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0161e/I913915.html
 
PL110_CLCD_TIMING3_LEE = (1 shl 16); LCD Line end enable: 0 = CLLE disabled (held LOW) / 1 = CLLE signal active
PL110_CLCD_TIMING3_LED = ($3F shl 0); Line-end signal delay from the rising-edge of the last panel clock


PL110 CLCD control constants PL110_CLCD_CONTROL_*
See: http://infocenter.arm.com/help/index.jsp?topic=/com.arm.doc.ddi0161e/I913915.html
 
PL110_CLCD_CONTROL_LCDEN = (1 shl 0);  
PL110_CLCD_CONTROL_LCDBPP1 = (0 shl 1); LCD bits per pixel: 000 = 1 bpp
PL110_CLCD_CONTROL_LCDBPP2 = (1 shl 1); LCD bits per pixel: 001 = 2 bpp
PL110_CLCD_CONTROL_LCDBPP4 = (2 shl 1); LCD bits per pixel: 010 = 4 bpp
PL110_CLCD_CONTROL_LCDBPP8 = (3 shl 1); LCD bits per pixel: 011 = 8 bpp
PL110_CLCD_CONTROL_LCDBPP16 = (4 shl 1); LCD bits per pixel: 100 = 16 bpp
PL110_CLCD_CONTROL_LCDBPP16_565 = (6 shl 1); LCD bits per pixel: 110 = 16 bpp 565 (PL111 only)
PL110_CLCD_CONTROL_LCDBPP16_444 = (7 shl 1); LCD bits per pixel: 111 = 16 bpp 444 (PL111 only)
PL110_CLCD_CONTROL_LCDBPP24 = (5 shl 1); LCD bits per pixel: 101 = 24 bpp
PL110_CLCD_CONTROL_LCDBW = (1 shl 4); STN LCD is monochrome (black and white) (0 = STN LCD is color / 1 = STN LCD is monochrome)
PL110_CLCD_CONTROL_LCDTFT = (1 shl 5); LCD is TFT (0 = LCD is an STN display, use gray scaler / 1 = LCD is TFT, do not use gray scaler)
PL110_CLCD_CONTROL_LCDMONO8 = (1 shl 6); Monochrome LCD has an 8-bit interface (0 = mono LCD uses 4-bit interface / 1 = mono LCD uses 8-bit interface)
PL110_CLCD_CONTROL_LCDDUAL = (1 shl 7); LCD interface is dual panel STN (0 = single panel LCD is in use / 1 = dual panel LCD is in use)
PL110_CLCD_CONTROL_BGR = (1 shl 8); RGB of BGR format selection (0 = RGB normal output / 1 = BGR red and blue swapped.)
PL110_CLCD_CONTROL_BEBO = (1 shl 9); Big-endian byte order (0 = little-endian byte order / 1 = big-endian byte order)
PL110_CLCD_CONTROL_BEPO = (1 shl 10); Big-endian pixel ordering within a byte (0 = little-endian pixel ordering within a byte / 1= big-endian pixel ordering within a byte)
PL110_CLCD_CONTROL_LCDPWR = (1 shl 11); LCD power enable
PL110_CLCD_CONTROL_LCDVCOMP_VSYNC = (0 shl 12); Generate interrupt at: 00 = start of vertical synchronization
PL110_CLCD_CONTROL_LCDVCOMP_BPORCH = (1 shl 12); Generate interrupt at: 01 = start of back porch
PL110_CLCD_CONTROL_LCDVCOMP_VIDEO = (2 shl 12); Generate interrupt at: 10 = start of active video
PL110_CLCD_CONTROL_LCDVCOMP_FPORCH = (3 shl 12); Generate interrupt at: 11 = start of front porch
PL110_CLCD_CONTROL_LDMAFIFOTIME = (1 shl 15); Unknown
PL110_CLCD_CONTROL_WATERMARK = (1 shl 16); LCD DMA FIFO Watermark level


PL110 control constants PL110_CONTROL_*
PL110_CONTROL_VGA = PL110_CLCD_CONTROL_LCDTFT or PL110_CLCD_CONTROL_LCDVCOMP_BPORCH;  
PL110_CONTROL_SVGA = PL110_CLCD_CONTROL_LCDTFT or PL110_CLCD_CONTROL_LCDVCOMP_BPORCH;  


PL110 timing0 constants PL110_TIMING0_*
PL110_TIMING0_VGA = $3F1F3F9C;  
PL110_TIMING0_SVGA = $1313A4C4;  


PL110 timing1 constants PL110_TIMING1_*
PL110_TIMING1_VGA = $090B61DF;  
PL110_TIMING1_SVGA = $0505F657;  


PL110 timing2 constants PL110_TIMING2_*
PL110_TIMING2_VGA = $067F1800;  
PL110_TIMING2_SVGA = $071F1800;  


Type definitions


To be documented

Public variables


To be documented

Function declarations



PL110 functions

function PL110FramebufferCreateVGA(Address:LongWord; const Name:String; Rotation,Width,Height,Depth:LongWord):PFramebufferDevice;
Description: Create, register and allocate a new PL110 Framebuffer device which can be accessed using the framebuffer API
Address The address of the PL110 registers
Name The text description of this device which will show in the device list (Optional)
Rotation The rotation value for the framebuffer device (eg FRAMEBUFFER_ROTATION_180)
Width The width of the framebuffer in pixels
Height The height of the framebuffer in pixels
Depth The color depth (bits per pixel) for the framebuffer (eg FRAMEBUFFER_DEPTH_16)
Return Pointer to the new Framebuffer device or nil if the framebuffer device could not be created


function PL110FramebufferCreateSVGA(Address:LongWord; const Name:String; Rotation,Width,Height,Depth:LongWord):PFramebufferDevice;
Description: Create, register and allocate a new PL110 Framebuffer device which can be accessed using the framebuffer API
Address The address of the PL110 registers
Name The text description of this device which will show in the device list (Optional)
Rotation The rotation value for the framebuffer device (eg FRAMEBUFFER_ROTATION_180)
Width The width of the framebuffer in pixels
Height The height of the framebuffer in pixels
Depth The color depth (bits per pixel) for the framebuffer (eg FRAMEBUFFER_DEPTH_16)
Return Pointer to the new Framebuffer device or nil if the framebuffer device could not be created


function PL110FramebufferDestroy(Framebuffer:PFramebufferDevice):LongWord;
Description: Release, deregister and destroy a PL110 Framebuffer device created by this driver
Framebuffer The Framebuffer device to destroy
Return ERROR_SUCCESS if completed or another error code on failure


PL110 framebuffer functions

function PL110FramebufferAllocate(Framebuffer:PFramebufferDevice; Properties:PFramebufferProperties):LongWord;
Description: Implementation of FramebufferDeviceAllocate API for PL110 Framebuffer
Note Not intended to be called directly by applications, use FramebufferDeviceAllocate instead


function PL110FramebufferRelease(Framebuffer:PFramebufferDevice):LongWord;
Description: Implementation of FramebufferDeviceRelease API for PL110 Framebuffer
Note Not intended to be called directly by applications, use FramebufferDeviceRelease instead


function PL110FramebufferBlank(Framebuffer:PFramebufferDevice; Blank:Boolean):LongWord;
Description: Implementation of FramebufferDevicBlank API for PL110 Framebuffer
Note Not intended to be called directly by applications, use FramebufferDevicBlank instead


function PL110FramebufferCommit(Framebuffer:PFramebufferDevice; Address,Size,Flags:LongWord):LongWord;
Description: Implementation of FramebufferDeviceCommit API for PL110 Framebuffer
Note Not intended to be called directly by applications, use FramebufferDeviceCommit instead


function PL110FramebufferSetOffset(Framebuffer:PFramebufferDevice; X,Y:LongWord; Pan:Boolean):LongWord;
Description: Implementation of FramebufferDeviceSetOffset API for PL110 Framebuffer
Note Not intended to be called directly by applications, use FramebufferDeviceSetOffset instead


function PL110FramebufferSetProperties(Framebuffer:PFramebufferDevice; Properties:PFramebufferProperties):LongWord;
Description: Implementation of FramebufferDeviceSetProperties API for PL110 Framebuffer
Note Not intended to be called directly by applications, use FramebufferDeviceSetProperties instead


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