upstream u-boot with additional patches for our devices/boards: https://lists.denx.de/pipermail/u-boot/2017-March/282789.html (AXP crashes) ; Gbit ethernet patch for some LIME2 revisions ; with SPI flash support
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u-boot/arch/arm/include/asm/arch-mb86r0x/mb86r0x.h

616 lines
11 KiB

/*
* (C) Copyright 2007
*
* mb86r0x definitions
*
* Author : Carsten Schneider, mycable GmbH
* <cs@mycable.de>
*
* (C) Copyright 2010
* Matthias Weisser <weisserm@arcor.de>
*
* See file CREDITS for list of people who contributed to this
* project.
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License as
* published by the Free Software Foundation; either version 2 of
* the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
* MA 02111-1307 USA
*/
#ifndef MB86R0X_H
#define MB86R0X_H
#ifndef __ASSEMBLY__
/* GPIO registers */
struct mb86r0x_gpio {
uint32_t gpdr0;
uint32_t gpdr1;
uint32_t gpdr2;
uint32_t res;
uint32_t gpddr0;
uint32_t gpddr1;
uint32_t gpddr2;
};
/* PWM registers */
struct mb86r0x_pwm {
uint32_t bcr;
uint32_t tpr;
uint32_t pr;
uint32_t dr;
uint32_t cr;
uint32_t sr;
uint32_t ccr;
uint32_t ir;
};
/* The mb86r0x chip control (CCNT) register set. */
struct mb86r0x_ccnt {
uint32_t ccid;
uint32_t csrst;
uint32_t pad0[2];
uint32_t cist;
uint32_t cistm;
uint32_t cgpio_ist;
uint32_t cgpio_istm;
uint32_t cgpio_ip;
uint32_t cgpio_im;
uint32_t caxi_bw;
uint32_t caxi_ps;
uint32_t cmux_md;
uint32_t cex_pin_st;
uint32_t cmlb;
uint32_t pad1[1];
uint32_t cusb;
uint32_t pad2[41];
uint32_t cbsc;
uint32_t cdcrc;
uint32_t cmsr0;
uint32_t cmsr1;
uint32_t pad3[2];
};
/* The mb86r0x clock reset generator */
struct mb86r0x_crg {
uint32_t crpr;
uint32_t pad0;
uint32_t crwr;
uint32_t crsr;
uint32_t crda;
uint32_t crdb;
uint32_t crha;
uint32_t crpa;
uint32_t crpb;
uint32_t crhb;
uint32_t cram;
};
/* The mb86r0x timer */
struct mb86r0x_timer {
uint32_t load;
uint32_t value;
uint32_t control;
uint32_t intclr;
uint32_t ris;
uint32_t mis;
uint32_t bgload;
};
/* mb86r0x gdc display controller */
struct mb86r0x_gdc_dsp {
/* Display settings */
uint32_t dcm0;
uint16_t pad00;
uint16_t htp;
uint16_t hdp;
uint16_t hdb;
uint16_t hsp;
uint8_t hsw;
uint8_t vsw;
uint16_t pad01;
uint16_t vtr;
uint16_t vsp;
uint16_t vdp;
uint16_t wx;
uint16_t wy;
uint16_t ww;
uint16_t wh;
/* Layer 0 */
uint32_t l0m;
uint32_t l0oa;
uint32_t l0da;
uint16_t l0dx;
uint16_t l0dy;
/* Layer 1 */
uint32_t l1m;
uint32_t cbda0;
uint32_t cbda1;
uint32_t pad02;
/* Layer 2 */
uint32_t l2m;
uint32_t l2oa0;
uint32_t l2da0;
uint32_t l2oa1;
uint32_t l2da1;
uint16_t l2dx;
uint16_t l2dy;
/* Layer 3 */
uint32_t l3m;
uint32_t l3oa0;
uint32_t l3da0;
uint32_t l3oa1;
uint32_t l3da1;
uint16_t l3dx;
uint16_t l3dy;
/* Layer 4 */
uint32_t l4m;
uint32_t l4oa0;
uint32_t l4da0;
uint32_t l4oa1;
uint32_t l4da1;
uint16_t l4dx;
uint16_t l4dy;
/* Layer 5 */
uint32_t l5m;
uint32_t l5oa0;
uint32_t l5da0;
uint32_t l5oa1;
uint32_t l5da1;
uint16_t l5dx;
uint16_t l5dy;
/* Cursor */
uint16_t cutc;
uint8_t cpm;
uint8_t csize;
uint32_t cuoa0;
uint16_t cux0;
uint16_t cuy0;
uint32_t cuoa1;
uint16_t cux1;
uint16_t cuy1;
/* Layer blending */
uint32_t l0bld;
uint32_t pad03;
uint32_t l0tc;
uint16_t l3tc;
uint16_t l2tc;
uint32_t pad04[15];
/* Display settings */
uint32_t dcm1;
uint32_t dcm2;
uint32_t dcm3;
uint32_t pad05;
/* Layer 0 extended */
uint32_t l0em;
uint16_t l0wx;
uint16_t l0wy;
uint16_t l0ww;
uint16_t l0wh;
uint32_t pad06;
/* Layer 1 extended */
uint32_t l1em;
uint16_t l1wx;
uint16_t l1wy;
uint16_t l1ww;
uint16_t l1wh;
uint32_t pad07;
/* Layer 2 extended */
uint32_t l2em;
uint16_t l2wx;
uint16_t l2wy;
uint16_t l2ww;
uint16_t l2wh;
uint32_t pad08;
/* Layer 3 extended */
uint32_t l3em;
uint16_t l3wx;
uint16_t l3wy;
uint16_t l3ww;
uint16_t l3wh;
uint32_t pad09;
/* Layer 4 extended */
uint32_t l4em;
uint16_t l4wx;
uint16_t l4wy;
uint16_t l4ww;
uint16_t l4wh;
uint32_t pad10;
/* Layer 5 extended */
uint32_t l5em;
uint16_t l5wx;
uint16_t l5wy;
uint16_t l5ww;
uint16_t l5wh;
uint32_t pad11;
/* Multi screen control */
uint32_t msc;
uint32_t pad12[3];
uint32_t dls;
uint32_t dbgc;
/* Layer blending */
uint32_t l1bld;
uint32_t l2bld;
uint32_t l3bld;
uint32_t l4bld;
uint32_t l5bld;
uint32_t pad13;
/* Extended transparency control */
uint32_t l0etc;
uint32_t l1etc;
uint32_t l2etc;
uint32_t l3etc;
uint32_t l4etc;
uint32_t l5etc;
uint32_t pad14[10];
/* YUV coefficients */
uint32_t l1ycr0;
uint32_t l1ycr1;
uint32_t l1ycg0;
uint32_t l1ycg1;
uint32_t l1ycb0;
uint32_t l1ycb1;
uint32_t pad15[130];
/* Layer palletes */
uint32_t l0pal[256];
uint32_t l1pal[256];
uint32_t pad16[256];
uint32_t l2pal[256];
uint32_t l3pal[256];
uint32_t pad17[256];
/* PWM settings */
uint32_t vpwmm;
uint16_t vpwms;
uint16_t vpwme;
uint32_t vpwmc;
uint32_t pad18[253];
};
/* mb86r0x gdc capture controller */
struct mb86r0x_gdc_cap {
uint32_t vcm;
uint32_t csc;
uint32_t vcs;
uint32_t pad01;
uint32_t cbm;
uint32_t cboa;
uint32_t cbla;
uint16_t cihstr;
uint16_t civstr;
uint16_t cihend;
uint16_t civend;
uint32_t pad02;
uint32_t chp;
uint32_t cvp;
uint32_t pad03[4];
uint32_t clpf;
uint32_t pad04;
uint32_t cmss;
uint32_t cmds;
uint32_t pad05[12];
uint32_t rgbhc;
uint32_t rgbhen;
uint32_t rgbven;
uint32_t pad06;
uint32_t rgbs;
uint32_t pad07[11];
uint32_t rgbcmy;
uint32_t rgbcmcb;
uint32_t rgbcmcr;
uint32_t rgbcmb;
uint32_t pad08[12 + 1984];
};
/* mb86r0x gdc draw */
struct mb86r0x_gdc_draw {
uint32_t ys;
uint32_t xs;
uint32_t dxdy;
uint32_t xus;
uint32_t dxudy;
uint32_t xls;
uint32_t dxldy;
uint32_t usn;
uint32_t lsn;
uint32_t pad01[7];
uint32_t rs;
uint32_t drdx;
uint32_t drdy;
uint32_t gs;
uint32_t dgdx;
uint32_t dgdy;
uint32_t bs;
uint32_t dbdx;
uint32_t dbdy;
uint32_t pad02[7];
uint32_t zs;
uint32_t dzdx;
uint32_t dzdy;
uint32_t pad03[13];
uint32_t ss;
uint32_t dsdx;
uint32_t dsdy;
uint32_t ts;
uint32_t dtdx;
uint32_t dtdy;
uint32_t qs;
uint32_t dqdx;
uint32_t dqdy;
uint32_t pad04[23];
uint32_t lpn;
uint32_t lxs;
uint32_t lxde;
uint32_t lys;
uint32_t lyde;
uint32_t lzs;
uint32_t lzde;
uint32_t pad05[13];
uint32_t pxdc;
uint32_t pydc;
uint32_t pzdc;
uint32_t pad06[25];
uint32_t rxs;
uint32_t rys;
uint32_t rsizex;
uint32_t rsizey;
uint32_t pad07[12];
uint32_t saddr;
uint32_t sstride;
uint32_t srx;
uint32_t sry;
uint32_t daddr;
uint32_t dstride;
uint32_t drx;
uint32_t dry;
uint32_t brsizex;
uint32_t brsizey;
uint32_t tcolor;
uint32_t pad08[93];
uint32_t blpo;
uint32_t pad09[7];
uint32_t ctr;
uint32_t ifsr;
uint32_t ifcnt;
uint32_t sst;
uint32_t ds;
uint32_t pst;
uint32_t est;
uint32_t pad10;
uint32_t mdr0;
uint32_t mdr1;
uint32_t mdr2;
uint32_t mdr3;
uint32_t mdr4;
uint32_t pad14[2];
uint32_t mdr7;
uint32_t fbr;
uint32_t xres;
uint32_t zbr;
uint32_t tbr;
uint32_t pfbr;
uint32_t cxmin;
uint32_t cxmax;
uint32_t cymin;
uint32_t cymax;
uint32_t txs;
uint32_t tis;
uint32_t toa;
uint32_t sho;
uint32_t abr;
uint32_t pad15[2];
uint32_t fc;
uint32_t bc;
uint32_t alf;
uint32_t blp;
uint32_t pad16;
uint32_t tbc;
uint32_t pad11[42];
uint32_t lx0dc;
uint32_t ly0dc;
uint32_t lx1dc;
uint32_t ly1dc;
uint32_t pad12[12];
uint32_t x0dc;
uint32_t y0dc;
uint32_t x1dc;
uint32_t y1dc;
uint32_t x2dc;
uint32_t y2dc;
uint32_t pad13[666];
};
/* mb86r0x gdc geometry engine */
struct mb86r0x_gdc_geom {
uint32_t gctr;
uint32_t pad00[15];
uint32_t gmdr0;
uint32_t gmdr1;
uint32_t gmdr2;
uint32_t pad01[237];
uint32_t dfifog;
uint32_t pad02[767];
};
/* mb86r0x gdc */
struct mb86r0x_gdc {
uint32_t pad00[2];
uint32_t lts;
uint32_t pad01;
uint32_t lsta;
uint32_t pad02[3];
uint32_t ist;
uint32_t imask;
uint32_t pad03[6];
uint32_t lsa;
uint32_t lco;
uint32_t lreq;
uint32_t pad04[16*1024 - 19];
struct mb86r0x_gdc_dsp dsp0;
struct mb86r0x_gdc_dsp dsp1;
uint32_t pad05[4*1024 - 2];
uint32_t vccc;
uint32_t vcsr;
struct mb86r0x_gdc_cap cap0;
struct mb86r0x_gdc_cap cap1;
uint32_t pad06[4*1024];
uint32_t texture_base[16*1024];
struct mb86r0x_gdc_draw draw;
uint32_t pad07[7*1024];
struct mb86r0x_gdc_geom geom;
uint32_t pad08[7*1024];
};
/* mb86r0x ddr2c */
struct mb86r0x_ddr2c {
uint16_t dric;
uint16_t dric1;
uint16_t dric2;
uint16_t drca;
uint16_t drcm;
uint16_t drcst1;
uint16_t drcst2;
uint16_t drcr;
uint16_t pad00[8];
uint16_t drcf;
uint16_t pad01[7];
uint16_t drasr;
uint16_t pad02[15];
uint16_t drims;
uint16_t pad03[7];
uint16_t dros;
uint16_t pad04;
uint16_t dribsodt1;
uint16_t dribsocd;
uint16_t dribsocd2;
uint16_t pad05[3];
uint16_t droaba;
uint16_t pad06[9];
uint16_t drobs;
uint16_t pad07[5];
uint16_t drimr1;
uint16_t drimr2;
uint16_t drimr3;
uint16_t drimr4;
uint16_t droisr1;
uint16_t droisr2;
};
/* mb86r0x memc */
struct mb86r0x_memc {
uint32_t mcfmode[8];
uint32_t mcftim[8];
uint32_t mcfarea[8];
};
#endif /* __ASSEMBLY__ */
/*
* Physical Address Defines
*/
#define MB86R0x_DDR2_BASE 0xf3000000
#define MB86R0x_GDC_BASE 0xf1fc0000
#define MB86R0x_CCNT_BASE 0xfff42000
#define MB86R0x_CAN0_BASE 0xfff54000
#define MB86R0x_CAN1_BASE 0xfff55000
#define MB86R0x_I2C0_BASE 0xfff56000
#define MB86R0x_I2C1_BASE 0xfff57000
#define MB86R0x_EHCI_BASE 0xfff80000
#define MB86R0x_OHCI_BASE 0xfff81000
#define MB86R0x_IRC1_BASE 0xfffb0000
#define MB86R0x_MEMC_BASE 0xfffc0000
#define MB86R0x_TIMER_BASE 0xfffe0000
#define MB86R0x_UART0_BASE 0xfffe1000
#define MB86R0x_UART1_BASE 0xfffe2000
#define MB86R0x_IRCE_BASE 0xfffe4000
#define MB86R0x_CRG_BASE 0xfffe7000
#define MB86R0x_IRC0_BASE 0xfffe8000
#define MB86R0x_GPIO_BASE 0xfffe9000
#define MB86R0x_PWM0_BASE 0xfff41000
#define MB86R0x_PWM1_BASE 0xfff41100
#define MB86R0x_CRSR_SWRSTREQ (1 << 1)
/*
* Timer register bits
*/
#define MB86R0x_TIMER_ENABLE (1 << 7)
#define MB86R0x_TIMER_MODE_MSK (1 << 6)
#define MB86R0x_TIMER_MODE_FR (0 << 6)
#define MB86R0x_TIMER_MODE_PD (1 << 6)
#define MB86R0x_TIMER_INT_EN (1 << 5)
#define MB86R0x_TIMER_PRS_MSK (3 << 2)
#define MB86R0x_TIMER_PRS_4S (1 << 2)
#define MB86R0x_TIMER_PRS_8S (1 << 3)
#define MB86R0x_TIMER_SIZE_32 (1 << 1)
#define MB86R0x_TIMER_ONE_SHT (1 << 0)
/*
* Clock reset generator bits
*/
#define MB86R0x_CRG_CRPR_PLLRDY (1 << 8)
#define MB86R0x_CRG_CRPR_PLLMODE (0x1f << 0)
#define MB86R0x_CRG_CRPR_PLLMODE_X49 (0 << 0)
#define MB86R0x_CRG_CRPR_PLLMODE_X46 (1 << 0)
#define MB86R0x_CRG_CRPR_PLLMODE_X37 (2 << 0)
#define MB86R0x_CRG_CRPR_PLLMODE_X20 (3 << 0)
#define MB86R0x_CRG_CRPR_PLLMODE_X47 (4 << 0)
#define MB86R0x_CRG_CRPR_PLLMODE_X44 (5 << 0)
#define MB86R0x_CRG_CRPR_PLLMODE_X36 (6 << 0)
#define MB86R0x_CRG_CRPR_PLLMODE_X19 (7 << 0)
#define MB86R0x_CRG_CRPR_PLLMODE_X39 (8 << 0)
#define MB86R0x_CRG_CRPR_PLLMODE_X38 (9 << 0)
#define MB86R0x_CRG_CRPR_PLLMODE_X30 (10 << 0)
#define MB86R0x_CRG_CRPR_PLLMODE_X15 (11 << 0)
/*
* DDR2 controller bits
*/
#define MB86R0x_DDR2_DRCI_DRINI (1 << 15)
#define MB86R0x_DDR2_DRCI_CKEN (1 << 14)
#define MB86R0x_DDR2_DRCI_DRCMD (1 << 0)
#define MB86R0x_DDR2_DRCI_CMD (MB86R0x_DDR2_DRCI_DRINI | \
MB86R0x_DDR2_DRCI_CKEN | \
MB86R0x_DDR2_DRCI_DRCMD)
#define MB86R0x_DDR2_DRCI_INIT (MB86R0x_DDR2_DRCI_DRINI | \
MB86R0x_DDR2_DRCI_CKEN)
#define MB86R0x_DDR2_DRCI_NORMAL MB86R0x_DDR2_DRCI_CKEN
#endif /* MB86R0X_H */