hdlcd.hh revision 11294
1/*
2 * Copyright (c) 2010-2013, 2015 ARM Limited
3 * All rights reserved
4 *
5 * The license below extends only to copyright in the software and shall
6 * not be construed as granting a license to any other intellectual
7 * property including but not limited to intellectual property relating
8 * to a hardware implementation of the functionality of the software
9 * licensed hereunder.  You may use the software subject to the license
10 * terms below provided that you ensure that this notice is replicated
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12 * modified or unmodified, in source code or in binary form.
13 *
14 * Redistribution and use in source and binary forms, with or without
15 * modification, are permitted provided that the following conditions are
16 * met: redistributions of source code must retain the above copyright
17 * notice, this list of conditions and the following disclaimer;
18 * redistributions in binary form must reproduce the above copyright
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21 * neither the name of the copyright holders nor the names of its
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23 * this software without specific prior written permission.
24 *
25 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
26 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
27 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
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29 * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
30 * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
31 * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
32 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
33 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
34 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
35 * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
36 *
37 * Authors: Chris Emmons
38 *          Andreas Sandberg
39 */
40
41
42/** @file
43 * Implementiation of the ARM HDLcd controller.
44 *
45 * This implementation aims to have sufficient detail such that underrun
46 * conditions are reasonable / behave similar to reality.  There are two
47 * 'engines' going at once.  First, the DMA engine running at LCD clock
48 * frequency is responsible for filling the controller's internal buffer.
49 * The second engine runs at the pixel clock frequency and reads the pixels
50 * out of the internal buffer.  The pixel rendering engine uses front / back
51 * porch and sync delays between lines and frames.
52 *
53 * If the pixel rendering engine does not have a pixel to display, it will
54 * cause an underrun event.  The HDLcd controller, per spec, will stop
55 * issuing DMA requests for the rest of the frame and resume normal behavior
56 * on the subsequent frame.  What pixels are rendered upon an underrun
57 * condition is different than the real hardware; while the user will see
58 * artifacts (previous frame mixed with current frame), it is not the same
59 * behavior as real hardware which repeats the last pixel value for the rest
60 * of the current frame.  This compromise was made to save on memory and
61 * complexity and assumes that it is not important to accurately model the
62 * content of an underrun frame.
63 *
64 * KNOWN ISSUES
65 * <ul>
66 *   <li>The HDLcd is implemented here as an AmbaDmaDevice, but it
67 *       doesn't have an AMBA ID as far as I know.  That is the only
68 *       bit of the AmbaDmaDevice interface that is irrelevant to it,
69 *       so a fake AMBA ID is used for now.  I didn't think inserting
70 *       an extra layer of hierachy between AmbaDmaDevice and
71 *       DmaDevice would be helpful to anyone else, but that may be
72 *       the right answer.
73 * </ul>
74 */
75
76#ifndef __DEV_ARM_HDLCD_HH__
77#define __DEV_ARM_HDLCD_HH__
78
79#include <fstream>
80#include <memory>
81
82#include "base/bitmap.hh"
83#include "base/framebuffer.hh"
84#include "dev/arm/amba_device.hh"
85#include "dev/pixelpump.hh"
86#include "sim/serialize.hh"
87
88class VncInput;
89struct HDLcdParams;
90class HDLcdPixelPump;
91
92class HDLcd: public AmbaDmaDevice
93{
94  public:
95    HDLcd(const HDLcdParams *p);
96    ~HDLcd();
97
98    void regStats() override;
99
100    void serialize(CheckpointOut &cp) const override;
101    void unserialize(CheckpointIn &cp) override;
102
103    void drainResume() override;
104
105  public: // IO device interface
106    Tick read(PacketPtr pkt) override;
107    Tick write(PacketPtr pkt) override;
108
109    AddrRangeList getAddrRanges() const override { return addrRanges; }
110
111  protected: // Parameters
112    VncInput *vnc;
113    const bool workaroundSwapRB;
114    const bool workaroundDmaLineCount;
115    const AddrRangeList addrRanges;
116    const bool enableCapture;
117    const Addr pixelBufferSize;
118
119  protected: // Register handling
120    /** ARM HDLcd register offsets */
121    enum RegisterOffset {
122        Version          = 0x0000,
123        Int_RawStat      = 0x0010,
124        Int_Clear        = 0x0014,
125        Int_Mask         = 0x0018,
126        Int_Status       = 0x001C,
127        Fb_Base          = 0x0100,
128        Fb_Line_Length   = 0x0104,
129        Fb_Line_Count    = 0x0108,
130        Fb_Line_Pitch    = 0x010C,
131        Bus_Options      = 0x0110,
132        V_Sync           = 0x0200,
133        V_Back_Porch     = 0x0204,
134        V_Data           = 0x0208,
135        V_Front_Porch    = 0x020C,
136        H_Sync           = 0x0210,
137        H_Back_Porch     = 0x0214,
138        H_Data           = 0x0218,
139        H_Front_Porch    = 0x021C,
140        Polarities       = 0x0220,
141        Command          = 0x0230,
142        Pixel_Format     = 0x0240,
143        Red_Select       = 0x0244,
144        Green_Select     = 0x0248,
145        Blue_Select      = 0x024C,
146    };
147
148    /** Reset value for Bus_Options register */
149    static constexpr size_t BUS_OPTIONS_RESETV = 0x408;
150
151    /** Reset value for Version register */
152    static constexpr size_t VERSION_RESETV = 0x1CDC0000;
153
154    /** AXI port width in bytes */
155    static constexpr size_t AXI_PORT_WIDTH = 8;
156
157    /** max number of beats delivered in one dma burst */
158    static constexpr size_t MAX_BURST_LEN = 16;
159
160    /** Maximum number of bytes per pixel */
161    static constexpr size_t MAX_PIXEL_SIZE = 4;
162
163    /**
164     * @name RegisterFieldLayouts
165     * Bit layout declarations for multi-field registers.
166     */
167    /**@{*/
168    BitUnion32(VersionReg)
169        Bitfield<7,0>   version_minor;
170        Bitfield<15,8>  version_major;
171        Bitfield<31,16> product_id;
172    EndBitUnion(VersionReg)
173
174    static constexpr uint32_t INT_DMA_END = (1UL << 0);
175    static constexpr uint32_t INT_BUS_ERROR = (1UL << 1);
176    static constexpr uint32_t INT_VSYNC = (1UL << 2);
177    static constexpr uint32_t INT_UNDERRUN = (1UL << 3);
178
179    BitUnion32(FbLineCountReg)
180        Bitfield<11,0>  fb_line_count;
181        Bitfield<31,12> reserved_31_12;
182    EndBitUnion(FbLineCountReg)
183
184    BitUnion32(BusOptsReg)
185        Bitfield<4,0>   burst_len;
186        Bitfield<7,5>   reserved_7_5;
187        Bitfield<11,8>  max_outstanding;
188        Bitfield<31,12> reserved_31_12;
189    EndBitUnion(BusOptsReg)
190
191    BitUnion32(TimingReg)
192        Bitfield<11,0>  val;
193        Bitfield<31,12> reserved_31_12;
194    EndBitUnion(TimingReg)
195
196    BitUnion32(PolaritiesReg)
197        Bitfield<0>    vsync_polarity;
198        Bitfield<1>    hsync_polarity;
199        Bitfield<2>    dataen_polarity;
200        Bitfield<3>    data_polarity;
201        Bitfield<4>    pxlclk_polarity;
202        Bitfield<31,5> reserved_31_5;
203    EndBitUnion(PolaritiesReg)
204
205    BitUnion32(CommandReg)
206        Bitfield<0>    enable;
207        Bitfield<31,1> reserved_31_1;
208    EndBitUnion(CommandReg)
209
210    BitUnion32(PixelFormatReg)
211        Bitfield<2,0>  reserved_2_0;
212        Bitfield<4,3>  bytes_per_pixel;
213        Bitfield<30,5> reserved_30_5;
214        Bitfield<31>   big_endian;
215    EndBitUnion(PixelFormatReg)
216
217    BitUnion32(ColorSelectReg)
218        Bitfield<4,0>   offset;
219        Bitfield<7,5>   reserved_7_5;
220        Bitfield<11,8>  size;
221        Bitfield<15,12> reserved_15_12;
222        Bitfield<23,16> default_color;
223        Bitfield<31,24> reserved_31_24;
224    EndBitUnion(ColorSelectReg)
225    /**@}*/
226
227    /**
228     * @name HDLCDRegisters
229     * HDLCD register contents.
230     */
231    /**@{*/
232    const VersionReg version;       /**< Version register */
233    uint32_t int_rawstat;           /**< Interrupt raw status register */
234    uint32_t int_mask;              /**< Interrupt mask register */
235    uint32_t fb_base;               /**< Frame buffer base address register */
236    uint32_t fb_line_length;        /**< Frame buffer Line length register */
237    FbLineCountReg fb_line_count;   /**< Frame buffer Line count register */
238    int32_t fb_line_pitch;          /**< Frame buffer Line pitch register */
239    BusOptsReg bus_options;         /**< Bus options register */
240    TimingReg v_sync;               /**< Vertical sync width register */
241    TimingReg v_back_porch;         /**< Vertical back porch width register */
242    TimingReg v_data;               /**< Vertical data width register */
243    TimingReg v_front_porch;        /**< Vertical front porch width register */
244    TimingReg h_sync;               /**< Horizontal sync width register */
245    TimingReg h_back_porch;         /**< Horizontal back porch width register */
246    TimingReg h_data;               /**< Horizontal data width register */
247    TimingReg h_front_porch;        /**< Horizontal front porch width reg */
248    PolaritiesReg polarities;       /**< Polarities register */
249    CommandReg command;             /**< Command register */
250    PixelFormatReg pixel_format;    /**< Pixel format register */
251    ColorSelectReg red_select;      /**< Red color select register */
252    ColorSelectReg green_select;    /**< Green color select register */
253    ColorSelectReg blue_select;     /**< Blue color select register */
254    /** @} */
255
256    uint32_t readReg(Addr offset);
257    void writeReg(Addr offset, uint32_t value);
258
259    PixelConverter pixelConverter() const;
260    DisplayTimings displayTimings() const;
261
262    void createDmaEngine();
263
264    void cmdEnable();
265    void cmdDisable();
266
267    bool enabled() const { return command.enable; }
268
269  public: // Pixel pump callbacks
270    bool pxlNext(Pixel &p);
271    void pxlVSyncBegin();
272    void pxlVSyncEnd();
273    void pxlUnderrun();
274    void pxlFrameDone();
275
276  protected: // Interrupt handling
277    /**
278     * Assign new interrupt values and update interrupt signals
279     *
280     * A new interrupt is scheduled signalled if the set of unmasked
281     * interrupts goes empty to non-empty. Conversely, if the set of
282     * unmasked interrupts goes from non-empty to empty, the interrupt
283     * signal is cleared.
284     *
285     * @param ints New <i>raw</i> interrupt status
286     * @param mask New interrupt mask
287     */
288    void setInterrupts(uint32_t ints, uint32_t mask);
289
290    /**
291     * Convenience function to update the interrupt mask
292     *
293     * @see setInterrupts
294     * @param mask New interrupt mask
295     */
296    void intMask(uint32_t mask) { setInterrupts(int_rawstat, mask); }
297
298    /**
299     * Convenience function to raise a new interrupt
300     *
301     * @see setInterrupts
302     * @param ints Set of interrupts to raise
303     */
304    void intRaise(uint32_t ints) {
305        setInterrupts(int_rawstat | ints, int_mask);
306    }
307
308    /**
309     * Convenience function to clear interrupts
310     *
311     * @see setInterrupts
312     * @param ints Set of interrupts to clear
313     */
314    void intClear(uint32_t ints) {
315        setInterrupts(int_rawstat & ~ints, int_mask);
316    }
317
318    /** Masked interrupt status register */
319    uint32_t intStatus() const { return int_rawstat & int_mask; }
320
321  protected: // Pixel output
322    class PixelPump : public BasePixelPump
323    {
324      public:
325        PixelPump(HDLcd &p, ClockDomain &pxl_clk, unsigned pixel_chunk)
326            : BasePixelPump(p, pxl_clk, pixel_chunk), parent(p) {}
327
328        void dumpSettings();
329
330      protected:
331        bool nextPixel(Pixel &p) override { return parent.pxlNext(p); }
332
333        void onVSyncBegin() override { return parent.pxlVSyncBegin(); }
334        void onVSyncEnd() override { return parent.pxlVSyncEnd(); }
335
336        void onUnderrun(unsigned x, unsigned y) override {
337            parent.pxlUnderrun();
338        }
339
340        void onFrameDone() override { parent.pxlFrameDone(); }
341
342      protected:
343        HDLcd &parent;
344    };
345
346    /** Helper to write out bitmaps */
347    Bitmap bmp;
348
349    /** Picture of what the current frame buffer looks like */
350    std::ostream *pic;
351
352    /** Cached pixel converter, set when the converter is enabled. */
353    PixelConverter conv;
354
355    PixelPump pixelPump;
356
357  protected: // DMA handling
358    class DmaEngine : public DmaReadFifo
359    {
360      public:
361        DmaEngine(HDLcd &_parent, size_t size,
362                  unsigned request_size, unsigned max_pending,
363                  size_t line_size, ssize_t line_pitch, unsigned num_lines);
364
365        void startFrame(Addr fb_base);
366        void abortFrame();
367        void dumpSettings();
368
369        void serialize(CheckpointOut &cp) const override;
370        void unserialize(CheckpointIn &cp) override;
371
372      protected:
373        void onEndOfBlock() override;
374        void onIdle() override;
375
376        HDLcd &parent;
377        const size_t lineSize;
378        const ssize_t linePitch;
379        const unsigned numLines;
380
381        Addr nextLineAddr;
382        Addr frameEnd;
383    };
384
385    std::unique_ptr<DmaEngine> dmaEngine;
386
387  protected: // Statistics
388    struct {
389        Stats::Scalar underruns;
390    } stats;
391};
392
393#endif
394