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/*
* Copyright (c) 2010-2013 ARM Limited
* All rights reserved
*
* The license below extends only to copyright in the software and shall
* not be construed as granting a license to any other intellectual
* property including but not limited to intellectual property relating
* to a hardware implementation of the functionality of the software
* licensed hereunder. You may use the software subject to the license
* terms below provided that you ensure that this notice is replicated
* unmodified and in its entirety in all distributions of the software,
* modified or unmodified, in source code or in binary form.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met: redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer;
* redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution;
* neither the name of the copyright holders nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*
* Authors: Chris Emmons
*/
/** @file
* Implementiation of the ARM HDLcd controller.
*
* This implementation aims to have sufficient detail such that underrun
* conditions are reasonable / behave similar to reality. There are two
* 'engines' going at once. First, the DMA engine running at LCD clock
* frequency is responsible for filling the controller's internal buffer.
* The second engine runs at the pixel clock frequency and reads the pixels
* out of the internal buffer. The pixel rendering engine uses front / back
* porch and sync delays between lines and frames.
*
* If the pixel rendering engine does not have a pixel to display, it will
* cause an underrun event. The HDLcd controller, per spec, will stop
* issuing DMA requests for the rest of the frame and resume normal behavior
* on the subsequent frame. What pixels are rendered upon an underrun
* condition is different than the real hardware; while the user will see
* artifacts (previous frame mixed with current frame), it is not the same
* behavior as real hardware which repeats the last pixel value for the rest
* of the current frame. This compromise was made to save on memory and
* complexity and assumes that it is not important to accurately model the
* content of an underrun frame.
*
* KNOWN ISSUES
* 1. The default kernel driver used in testing sets the line count to one
* less than the expected 768. However, it also sets the v_count to 767.
* The controller specifies that 1 should be added to v_count but does not
* specify adding 1 to the line count. The driver is probably wrong.
* However, to sync these two numbers up, this model uses fb_line_count and
* fb_line_length rather than using v_data or h_data values to determine the
* width and height of the frame; those values are ignored.
* 2. The HDLcd is implemented here as an AmbaDmaDevice, but it doesn't have
* an AMBA ID as far as I know. That is the only bit of the AmbaDmaDevice
* interface that is irrelevant to it, so a fake AMBA ID is used for now.
* I didn't think inserting an extra layer of hierachy between AmbaDmaDevice
* and DmaDevice would be helpful to anyone else, but that may be the right
* answer.
* 3. The internal buffer size is either 1 or 2 KB depending on which
* specification is referenced for the different Versatile Express tiles.
* This implementation uses the larger 2 KB buffer by default.
*/
#ifndef __DEV_ARM_HDLCD_HH__
#define __DEV_ARM_HDLCD_HH__
#include <fstream>
#include "dev/arm/amba_device.hh"
#include "params/HDLcd.hh"
#include "sim/serialize.hh"
class VncInput;
class Bitmap;
class HDLcd: public AmbaDmaDevice
{
protected:
/** fake AMBA ID -- unused */
static const uint64_t AMBA_ID = ULL(0xb105f00d00141000);
/** ARM HDLcd register offsets */
enum RegisterOffset {
Version = 0x0000,
Int_RawStat = 0x0010,
Int_Clear = 0x0014,
Int_Mask = 0x0018,
Int_Status = 0x001C,
Fb_Base = 0x0100,
Fb_Line_Length = 0x0104,
Fb_Line_Count = 0x0108,
Fb_Line_Pitch = 0x010C,
Bus_Options = 0x0110,
V_Sync = 0x0200,
V_Back_Porch = 0x0204,
V_Data = 0x0208,
V_Front_Porch = 0x020C,
H_Sync = 0x0210,
H_Back_Porch = 0x0214,
H_Data = 0x0218,
H_Front_Porch = 0x021C,
Polarities = 0x0220,
Command = 0x0230,
Pixel_Format = 0x0240,
Red_Select = 0x0244,
Green_Select = 0x0248,
Blue_Select = 0x024C };
/** Reset value for Bus_Options register */
static const size_t BUS_OPTIONS_RESETV = 0x408;
/** Reset value for Version register */
static const size_t VERSION_RESETV = 0x1CDC0000;
/** max number of outstanding DMA requests possible */
static const size_t MAX_OUTSTANDING_DMA_REQ_CAPACITY = 16;
/** max number of beats delivered in one dma burst */
static const size_t MAX_BURST_LEN = 16;
/** size of internal buffer in bytes */
static const size_t PIXEL_BUFFER_CAPACITY = 2048;
/** AXI port width in bytes */
static const size_t AXI_PORT_WIDTH = 8;
/**
* @name RegisterFieldLayouts
* Bit layout declarations for multi-field registers.
*/
/**@{*/
BitUnion32(VersionReg)
Bitfield<7,0> version_minor;
Bitfield<15,8> version_major;
Bitfield<31,16> product_id;
EndBitUnion(VersionReg)
BitUnion32(InterruptReg)
Bitfield<0> dma_end;
Bitfield<1> bus_error;
Bitfield<2> vsync;
Bitfield<3> underrun;
EndBitUnion(InterruptReg)
BitUnion32(FbLineCountReg)
Bitfield<11,0> fb_line_count;
Bitfield<31,12> reserved_31_12;
EndBitUnion(FbLineCountReg)
BitUnion32(BusOptsReg)
Bitfield<4,0> burst_len;
Bitfield<7,5> reserved_7_5;
Bitfield<11,8> max_outstanding;
Bitfield<31,12> reserved_31_12;
EndBitUnion(BusOptsReg)
BitUnion32(TimingReg)
Bitfield<11,0> val;
Bitfield<31,12> reserved_31_12;
EndBitUnion(TimingReg)
BitUnion32(PolaritiesReg)
Bitfield<0> vsync_polarity;
Bitfield<1> hsync_polarity;
Bitfield<2> dataen_polarity;
Bitfield<3> data_polarity;
Bitfield<4> pxlclk_polarity;
Bitfield<31,5> reserved_31_5;
EndBitUnion(PolaritiesReg)
BitUnion32(CommandReg)
Bitfield<0> enable;
Bitfield<31,1> reserved_31_1;
EndBitUnion(CommandReg)
BitUnion32(PixelFormatReg)
Bitfield<2,0> reserved_2_0;
Bitfield<4,3> bytes_per_pixel;
Bitfield<30,5> reserved_30_5;
Bitfield<31> big_endian;
EndBitUnion(PixelFormatReg)
BitUnion32(ColorSelectReg)
Bitfield<4,0> offset;
Bitfield<7,5> reserved_7_5;
Bitfield<11,8> size;
Bitfield<15,12> reserved_15_12;
Bitfield<23,16> default_color;
Bitfield<31,24> reserved_31_24;
EndBitUnion(ColorSelectReg)
/**@}*/
/**
* @name HDLCDRegisters
* HDLCD register contents.
*/
/**@{*/
VersionReg version; /**< Version register */
InterruptReg int_rawstat; /**< Interrupt raw status register */
InterruptReg int_clear; /**< Interrupt clear register */
InterruptReg int_mask; /**< Interrupt mask register */
InterruptReg int_status; /**< Interrupt status register */
uint32_t fb_base; /**< Frame buffer base address register */
uint32_t fb_line_length; /**< Frame buffer Line length register */
FbLineCountReg fb_line_count; /**< Frame buffer Line count register */
uint32_t fb_line_pitch; /**< Frame buffer Line pitch register */
BusOptsReg bus_options; /**< Bus options register */
TimingReg v_sync; /**< Vertical sync width register */
TimingReg v_back_porch; /**< Vertical back porch width register */
TimingReg v_data; /**< Vertical data width register */
TimingReg v_front_porch; /**< Vertical front porch width register */
TimingReg h_sync; /**< Horizontal sync width register */
TimingReg h_back_porch; /**< Horizontal back porch width register */
TimingReg h_data; /**< Horizontal data width register */
TimingReg h_front_porch; /**< Horizontal front porch width reg */
PolaritiesReg polarities; /**< Polarities register */
CommandReg command; /**< Command register */
PixelFormatReg pixel_format; /**< Pixel format register */
ColorSelectReg red_select; /**< Red color select register */
ColorSelectReg green_select; /**< Green color select register */
ColorSelectReg blue_select; /**< Blue color select register */
/** @} */
/** Pixel clock period */
const Tick pixelClock;
/** VNC server */
VncInput *vnc;
/** Helper to write out bitmaps */
Bitmap *bmp;
/** Picture of what the current frame buffer looks like */
std::ostream *pic;
/**
* Event wrapper for dmaDone()
*
* This event call pushes its this pointer onto the freeDoneEvent vector
* and calls dmaDone() when triggered. While most of the time the burst
* length of a transaction will be the max burst length set by the driver,
* any trailing bytes must be handled with smaller lengths thus requiring
* the configurable burst length option.
*/
class DmaDoneEvent : public Event
{
private:
/** Reference to HDLCD that issued the corresponding DMA transaction */
HDLcd &obj;
/** Transaction size */
size_t transSize;
public:
/**
* Constructor.
*
* @param _obj HDLCD that issued the corresponding DMA transaction
*/
DmaDoneEvent(HDLcd *_obj)
: Event(), obj(*_obj), transSize(0) {}
/**
* Sets the size of this transaction.
*
* @param len size of the transaction in bytes
*/
void setTransactionSize(size_t len) {
transSize = len;
}
/**
* Gets the size of this transaction.
*
* @return size of this transaction in bytes
*/
size_t getTransactionSize() const {
return transSize;
}
void process() {
obj.dmaDone(this);
}
const std::string name() const {
return obj.name() + ".DmaDoneEvent";
}
};
/** Start time for frame buffer dma read */
Tick frameReadStartTime;
/** Starting address for the current frame */
Addr dmaStartAddr;
/** Next address the dma should read from */
Addr dmaCurAddr;
/** One byte past the address of the last byte the dma should read
* from */
Addr dmaMaxAddr;
/** Number of pending dma reads */
size_t dmaPendingNum;
/** Flag indicating whether current frame has underrun */
bool frameUnderrun;
/** HDLcd virtual display buffer */
uint8_t *virtualDisplayBuffer;
/** Size of the pixel buffer */
size_t pixelBufferSize;
/** Index of the next pixel to render */
size_t pixelIndex;
/** Flag indicating whether video parameters need updating */
bool doUpdateParams;
/** Flag indicating whether a frame read / display is in progress */
bool frameUnderway;
/**
* Number of bytes in flight from DMA that have not reached the pixel
* buffer yet
*/
uint32_t dmaBytesInFlight;
/**
* Gets the number of oustanding DMA transactions allowed on the bus at a
* time.
*
* @return gets the driver-specified number of outstanding DMA transactions
* from the hdlcd controller that are allowed on the bus at a time
*/
inline uint16_t maxOutstandingDma() const {
return bus_options.max_outstanding;
}
/**
* Gets the number of bytes free in the pixel buffer.
*
* @return number of bytes free in the internal pixel buffer
*/
inline uint32_t bytesFreeInPixelBuffer() const {
return PIXEL_BUFFER_CAPACITY - (pixelBufferSize + dmaBytesInFlight);
}
/**
* Gets the number of beats-per-burst for bus transactions.
*
* @return number of beats-per-burst per HDLcd DMA transaction
*/
inline size_t dmaBurstLength() const {
assert(bus_options.burst_len <= MAX_BURST_LEN);
return bus_options.burst_len;
}
/**
* Gets the number of bytes per pixel.
*
* @return bytes per pixel
*/
inline size_t bytesPerPixel() const {
return pixel_format.bytes_per_pixel + 1;
}
/**
* Gets frame buffer width.
*
* @return frame buffer width (pixels per line)
*/
inline size_t width() const {
return fb_line_length / bytesPerPixel();
}
/**
* Gets frame buffer height.
*
* @return frame buffer height (lines per panel)
*/
inline size_t height() const {
return fb_line_count.fb_line_count;
}
/**
* Gets the total number of pixel clocks per display line.
*
* @return number of pixel clocks per display line including porch delays
* and horizontal sync time
*/
inline uint64_t PClksPerLine() const {
return h_back_porch.val + 1 +
h_data.val + 1 +
h_front_porch.val + 1 +
h_sync.val + 1;
}
/** Send updated parameters to the vnc server */
void updateVideoParams(bool unserializing);
/** Generates an interrupt */
void generateInterrupt();
/** Start reading the next frame */
void startFrame();
/** End of frame reached */
void endFrame();
/** Generate DMA read requests from frame buffer into pixel buffer */
void fillPixelBuffer();
/** DMA done event */
void dmaDone(DmaDoneEvent *event);
/** Called when it is time to render a pixel */
void renderPixel();
/** Start of frame event */
EventWrapper<HDLcd, &HDLcd::startFrame> startFrameEvent;
/** End of frame event */
EventWrapper<HDLcd, &HDLcd::endFrame> endFrameEvent;
/** Pixel render event */
EventWrapper<HDLcd, &HDLcd::renderPixel> renderPixelEvent;
/** Fill fifo */
EventWrapper<HDLcd, &HDLcd::fillPixelBuffer> fillPixelBufferEvent;
/** Wrapper to create an event out of the interrupt */
EventWrapper<HDLcd, &HDLcd::generateInterrupt> intEvent;
/**@{*/
/**
* All pre-allocated DMA done events
*
* The HDLCD model preallocates maxOutstandingDma() number of
* DmaDoneEvents to avoid having to heap allocate every single
* event when it is needed. In order to keep track of which events
* are in flight and which are ready to be used, we use two
* different vectors. dmaDoneEventAll contains <i>all</i>
* DmaDoneEvents that the object may use, while dmaDoneEventFree
* contains a list of currently <i>unused</i> events. When an
* event needs to be scheduled, the last element of the
* dmaDoneEventFree is used and removed from the list. When an
* event fires, it is added to the end of the
* dmaEventFreeList. dmaDoneEventAll is never used except for in
* initialization and serialization.
*/
std::vector<DmaDoneEvent> dmaDoneEventAll;
/** Unused DMA done events that are ready to be scheduled */
std::vector<DmaDoneEvent *> dmaDoneEventFree;
/**@}*/
public:
typedef HDLcdParams Params;
const Params *
params() const
{
return dynamic_cast<const Params *>(_params);
}
HDLcd(const Params *p);
~HDLcd();
virtual Tick read(PacketPtr pkt);
virtual Tick write(PacketPtr pkt);
virtual void serialize(std::ostream &os);
virtual void unserialize(Checkpoint *cp, const std::string §ion);
/**
* Determine the address ranges that this device responds to.
*
* @return a list of non-overlapping address ranges
*/
AddrRangeList getAddrRanges() const;
};
#endif
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