linux/arch/powerpc/include/asm/8xx_immap.h
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   1/*
   2 * MPC8xx Internal Memory Map
   3 * Copyright (c) 1997 Dan Malek (dmalek@jlc.net)
   4 *
   5 * The I/O on the MPC860 is comprised of blocks of special registers
   6 * and the dual port ram for the Communication Processor Module.
   7 * Within this space are functional units such as the SIU, memory
   8 * controller, system timers, and other control functions.  It is
   9 * a combination that I found difficult to separate into logical
  10 * functional files.....but anyone else is welcome to try.  -- Dan
  11 */
  12#ifdef __KERNEL__
  13#ifndef __IMMAP_8XX__
  14#define __IMMAP_8XX__
  15
  16/* System configuration registers.
  17*/
  18typedef struct sys_conf {
  19        uint    sc_siumcr;
  20        uint    sc_sypcr;
  21        uint    sc_swt;
  22        char    res1[2];
  23        ushort  sc_swsr;
  24        uint    sc_sipend;
  25        uint    sc_simask;
  26        uint    sc_siel;
  27        uint    sc_sivec;
  28        uint    sc_tesr;
  29        char    res2[0xc];
  30        uint    sc_sdcr;
  31        char    res3[0x4c];
  32} sysconf8xx_t;
  33
  34/* PCMCIA configuration registers.
  35*/
  36typedef struct pcmcia_conf {
  37        uint    pcmc_pbr0;
  38        uint    pcmc_por0;
  39        uint    pcmc_pbr1;
  40        uint    pcmc_por1;
  41        uint    pcmc_pbr2;
  42        uint    pcmc_por2;
  43        uint    pcmc_pbr3;
  44        uint    pcmc_por3;
  45        uint    pcmc_pbr4;
  46        uint    pcmc_por4;
  47        uint    pcmc_pbr5;
  48        uint    pcmc_por5;
  49        uint    pcmc_pbr6;
  50        uint    pcmc_por6;
  51        uint    pcmc_pbr7;
  52        uint    pcmc_por7;
  53        char    res1[0x20];
  54        uint    pcmc_pgcra;
  55        uint    pcmc_pgcrb;
  56        uint    pcmc_pscr;
  57        char    res2[4];
  58        uint    pcmc_pipr;
  59        char    res3[4];
  60        uint    pcmc_per;
  61        char    res4[4];
  62} pcmconf8xx_t;
  63
  64/* Memory controller registers.
  65*/
  66typedef struct  mem_ctlr {
  67        uint    memc_br0;
  68        uint    memc_or0;
  69        uint    memc_br1;
  70        uint    memc_or1;
  71        uint    memc_br2;
  72        uint    memc_or2;
  73        uint    memc_br3;
  74        uint    memc_or3;
  75        uint    memc_br4;
  76        uint    memc_or4;
  77        uint    memc_br5;
  78        uint    memc_or5;
  79        uint    memc_br6;
  80        uint    memc_or6;
  81        uint    memc_br7;
  82        uint    memc_or7;
  83        char    res1[0x24];
  84        uint    memc_mar;
  85        uint    memc_mcr;
  86        char    res2[4];
  87        uint    memc_mamr;
  88        uint    memc_mbmr;
  89        ushort  memc_mstat;
  90        ushort  memc_mptpr;
  91        uint    memc_mdr;
  92        char    res3[0x80];
  93} memctl8xx_t;
  94
  95/*-----------------------------------------------------------------------
  96 * BR - Memory Controller: Base Register                                        16-9
  97 */
  98#define BR_BA_MSK       0xffff8000      /* Base Address Mask                    */
  99#define BR_AT_MSK       0x00007000      /* Address Type Mask                    */
 100#define BR_PS_MSK       0x00000c00      /* Port Size Mask                       */
 101#define BR_PS_32        0x00000000      /* 32 bit port size                     */
 102#define BR_PS_16        0x00000800      /* 16 bit port size                     */
 103#define BR_PS_8         0x00000400      /*  8 bit port size                     */
 104#define BR_PARE         0x00000200      /* Parity Enable                        */
 105#define BR_WP           0x00000100      /* Write Protect                        */
 106#define BR_MS_MSK       0x000000c0      /* Machine Select Mask                  */
 107#define BR_MS_GPCM      0x00000000      /* G.P.C.M. Machine Select              */
 108#define BR_MS_UPMA      0x00000080      /* U.P.M.A Machine Select               */
 109#define BR_MS_UPMB      0x000000c0      /* U.P.M.B Machine Select               */
 110#define BR_V            0x00000001      /* Bank Valid                           */
 111
 112/*-----------------------------------------------------------------------
 113 * OR - Memory Controller: Option Register                              16-11
 114 */
 115#define OR_AM_MSK       0xffff8000      /* Address Mask Mask                    */
 116#define OR_ATM_MSK      0x00007000      /* Address Type Mask Mask               */
 117#define OR_CSNT_SAM     0x00000800      /* Chip Select Negation Time/ Start     */
 118                                        /* Address Multiplex                    */
 119#define OR_ACS_MSK      0x00000600      /* Address to Chip Select Setup mask    */
 120#define OR_ACS_DIV1     0x00000000      /* CS is output at the same time        */
 121#define OR_ACS_DIV4     0x00000400      /* CS is output 1/4 a clock later       */
 122#define OR_ACS_DIV2     0x00000600      /* CS is output 1/2 a clock later       */
 123#define OR_G5LA         0x00000400      /* Output #GPL5 on #GPL_A5              */
 124#define OR_G5LS         0x00000200      /* Drive #GPL high on falling edge of...*/
 125#define OR_BI           0x00000100      /* Burst inhibit                        */
 126#define OR_SCY_MSK      0x000000f0      /* Cycle Length in Clocks               */
 127#define OR_SCY_0_CLK    0x00000000      /* 0 clock cycles wait states           */
 128#define OR_SCY_1_CLK    0x00000010      /* 1 clock cycles wait states           */
 129#define OR_SCY_2_CLK    0x00000020      /* 2 clock cycles wait states           */
 130#define OR_SCY_3_CLK    0x00000030      /* 3 clock cycles wait states           */
 131#define OR_SCY_4_CLK    0x00000040      /* 4 clock cycles wait states           */
 132#define OR_SCY_5_CLK    0x00000050      /* 5 clock cycles wait states           */
 133#define OR_SCY_6_CLK    0x00000060      /* 6 clock cycles wait states           */
 134#define OR_SCY_7_CLK    0x00000070      /* 7 clock cycles wait states           */
 135#define OR_SCY_8_CLK    0x00000080      /* 8 clock cycles wait states           */
 136#define OR_SCY_9_CLK    0x00000090      /* 9 clock cycles wait states           */
 137#define OR_SCY_10_CLK   0x000000a0      /* 10 clock cycles wait states          */
 138#define OR_SCY_11_CLK   0x000000b0      /* 11 clock cycles wait states          */
 139#define OR_SCY_12_CLK   0x000000c0      /* 12 clock cycles wait states          */
 140#define OR_SCY_13_CLK   0x000000d0      /* 13 clock cycles wait states          */
 141#define OR_SCY_14_CLK   0x000000e0      /* 14 clock cycles wait states          */
 142#define OR_SCY_15_CLK   0x000000f0      /* 15 clock cycles wait states          */
 143#define OR_SETA         0x00000008      /* External Transfer Acknowledge        */
 144#define OR_TRLX         0x00000004      /* Timing Relaxed                       */
 145#define OR_EHTR         0x00000002      /* Extended Hold Time on Read           */
 146
 147/* System Integration Timers.
 148*/
 149typedef struct  sys_int_timers {
 150        ushort  sit_tbscr;
 151        char    res0[0x02];
 152        uint    sit_tbreff0;
 153        uint    sit_tbreff1;
 154        char    res1[0x14];
 155        ushort  sit_rtcsc;
 156        char    res2[0x02];
 157        uint    sit_rtc;
 158        uint    sit_rtsec;
 159        uint    sit_rtcal;
 160        char    res3[0x10];
 161        ushort  sit_piscr;
 162        char    res4[2];
 163        uint    sit_pitc;
 164        uint    sit_pitr;
 165        char    res5[0x34];
 166} sit8xx_t;
 167
 168#define TBSCR_TBIRQ_MASK        ((ushort)0xff00)
 169#define TBSCR_REFA              ((ushort)0x0080)
 170#define TBSCR_REFB              ((ushort)0x0040)
 171#define TBSCR_REFAE             ((ushort)0x0008)
 172#define TBSCR_REFBE             ((ushort)0x0004)
 173#define TBSCR_TBF               ((ushort)0x0002)
 174#define TBSCR_TBE               ((ushort)0x0001)
 175
 176#define RTCSC_RTCIRQ_MASK       ((ushort)0xff00)
 177#define RTCSC_SEC               ((ushort)0x0080)
 178#define RTCSC_ALR               ((ushort)0x0040)
 179#define RTCSC_38K               ((ushort)0x0010)
 180#define RTCSC_SIE               ((ushort)0x0008)
 181#define RTCSC_ALE               ((ushort)0x0004)
 182#define RTCSC_RTF               ((ushort)0x0002)
 183#define RTCSC_RTE               ((ushort)0x0001)
 184
 185#define PISCR_PIRQ_MASK         ((ushort)0xff00)
 186#define PISCR_PS                ((ushort)0x0080)
 187#define PISCR_PIE               ((ushort)0x0004)
 188#define PISCR_PTF               ((ushort)0x0002)
 189#define PISCR_PTE               ((ushort)0x0001)
 190
 191/* Clocks and Reset.
 192*/
 193typedef struct clk_and_reset {
 194        uint    car_sccr;
 195        uint    car_plprcr;
 196        uint    car_rsr;
 197        char    res[0x74];        /* Reserved area                  */
 198} car8xx_t;
 199
 200/* System Integration Timers keys.
 201*/
 202typedef struct sitk {
 203        uint    sitk_tbscrk;
 204        uint    sitk_tbreff0k;
 205        uint    sitk_tbreff1k;
 206        uint    sitk_tbk;
 207        char    res1[0x10];
 208        uint    sitk_rtcsck;
 209        uint    sitk_rtck;
 210        uint    sitk_rtseck;
 211        uint    sitk_rtcalk;
 212        char    res2[0x10];
 213        uint    sitk_piscrk;
 214        uint    sitk_pitck;
 215        char    res3[0x38];
 216} sitk8xx_t;
 217
 218/* Clocks and reset keys.
 219*/
 220typedef struct cark {
 221        uint    cark_sccrk;
 222        uint    cark_plprcrk;
 223        uint    cark_rsrk;
 224        char    res[0x474];
 225} cark8xx_t;
 226
 227/* The key to unlock registers maintained by keep-alive power.
 228*/
 229#define KAPWR_KEY       ((unsigned int)0x55ccaa33)
 230
 231/* Video interface.  MPC823 Only.
 232*/
 233typedef struct vid823 {
 234        ushort  vid_vccr;
 235        ushort  res1;
 236        u_char  vid_vsr;
 237        u_char  res2;
 238        u_char  vid_vcmr;
 239        u_char  res3;
 240        uint    vid_vbcb;
 241        uint    res4;
 242        uint    vid_vfcr0;
 243        uint    vid_vfaa0;
 244        uint    vid_vfba0;
 245        uint    vid_vfcr1;
 246        uint    vid_vfaa1;
 247        uint    vid_vfba1;
 248        u_char  res5[0x18];
 249} vid823_t;
 250
 251/* LCD interface.  823 Only.
 252*/
 253typedef struct lcd {
 254        uint    lcd_lccr;
 255        uint    lcd_lchcr;
 256        uint    lcd_lcvcr;
 257        char    res1[4];
 258        uint    lcd_lcfaa;
 259        uint    lcd_lcfba;
 260        char    lcd_lcsr;
 261        char    res2[0x7];
 262} lcd823_t;
 263
 264/* I2C
 265*/
 266typedef struct i2c {
 267        u_char  i2c_i2mod;
 268        char    res1[3];
 269        u_char  i2c_i2add;
 270        char    res2[3];
 271        u_char  i2c_i2brg;
 272        char    res3[3];
 273        u_char  i2c_i2com;
 274        char    res4[3];
 275        u_char  i2c_i2cer;
 276        char    res5[3];
 277        u_char  i2c_i2cmr;
 278        char    res6[0x8b];
 279} i2c8xx_t;
 280
 281/* DMA control/status registers.
 282*/
 283typedef struct sdma_csr {
 284        char    res1[4];
 285        uint    sdma_sdar;
 286        u_char  sdma_sdsr;
 287        char    res3[3];
 288        u_char  sdma_sdmr;
 289        char    res4[3];
 290        u_char  sdma_idsr1;
 291        char    res5[3];
 292        u_char  sdma_idmr1;
 293        char    res6[3];
 294        u_char  sdma_idsr2;
 295        char    res7[3];
 296        u_char  sdma_idmr2;
 297        char    res8[0x13];
 298} sdma8xx_t;
 299
 300/* Communication Processor Module Interrupt Controller.
 301*/
 302typedef struct cpm_ic {
 303        ushort  cpic_civr;
 304        char    res[0xe];
 305        uint    cpic_cicr;
 306        uint    cpic_cipr;
 307        uint    cpic_cimr;
 308        uint    cpic_cisr;
 309} cpic8xx_t;
 310
 311/* Input/Output Port control/status registers.
 312*/
 313typedef struct io_port {
 314        ushort  iop_padir;
 315        ushort  iop_papar;
 316        ushort  iop_paodr;
 317        ushort  iop_padat;
 318        char    res1[8];
 319        ushort  iop_pcdir;
 320        ushort  iop_pcpar;
 321        ushort  iop_pcso;
 322        ushort  iop_pcdat;
 323        ushort  iop_pcint;
 324        char    res2[6];
 325        ushort  iop_pddir;
 326        ushort  iop_pdpar;
 327        char    res3[2];
 328        ushort  iop_pddat;
 329        uint    utmode;
 330        char    res4[4];
 331} iop8xx_t;
 332
 333/* Communication Processor Module Timers
 334*/
 335typedef struct cpm_timers {
 336        ushort  cpmt_tgcr;
 337        char    res1[0xe];
 338        ushort  cpmt_tmr1;
 339        ushort  cpmt_tmr2;
 340        ushort  cpmt_trr1;
 341        ushort  cpmt_trr2;
 342        ushort  cpmt_tcr1;
 343        ushort  cpmt_tcr2;
 344        ushort  cpmt_tcn1;
 345        ushort  cpmt_tcn2;
 346        ushort  cpmt_tmr3;
 347        ushort  cpmt_tmr4;
 348        ushort  cpmt_trr3;
 349        ushort  cpmt_trr4;
 350        ushort  cpmt_tcr3;
 351        ushort  cpmt_tcr4;
 352        ushort  cpmt_tcn3;
 353        ushort  cpmt_tcn4;
 354        ushort  cpmt_ter1;
 355        ushort  cpmt_ter2;
 356        ushort  cpmt_ter3;
 357        ushort  cpmt_ter4;
 358        char    res2[8];
 359} cpmtimer8xx_t;
 360
 361/* Finally, the Communication Processor stuff.....
 362*/
 363typedef struct scc {            /* Serial communication channels */
 364        uint    scc_gsmrl;
 365        uint    scc_gsmrh;
 366        ushort  scc_psmr;
 367        char    res1[2];
 368        ushort  scc_todr;
 369        ushort  scc_dsr;
 370        ushort  scc_scce;
 371        char    res2[2];
 372        ushort  scc_sccm;
 373        char    res3;
 374        u_char  scc_sccs;
 375        char    res4[8];
 376} scc_t;
 377
 378typedef struct smc {            /* Serial management channels */
 379        char    res1[2];
 380        ushort  smc_smcmr;
 381        char    res2[2];
 382        u_char  smc_smce;
 383        char    res3[3];
 384        u_char  smc_smcm;
 385        char    res4[5];
 386} smc_t;
 387
 388/* MPC860T Fast Ethernet Controller.  It isn't part of the CPM, but
 389 * it fits within the address space.
 390 */
 391
 392typedef struct fec {
 393        uint    fec_addr_low;           /* lower 32 bits of station address     */
 394        ushort  fec_addr_high;          /* upper 16 bits of station address     */
 395        ushort  res1;                   /* reserved                             */
 396        uint    fec_grp_hash_table_high;        /* upper 32-bits of hash table          */
 397        uint    fec_grp_hash_table_low; /* lower 32-bits of hash table          */
 398        uint    fec_r_des_start;        /* beginning of Rx descriptor ring      */
 399        uint    fec_x_des_start;        /* beginning of Tx descriptor ring      */
 400        uint    fec_r_buff_size;        /* Rx buffer size                       */
 401        uint    res2[9];                /* reserved                             */
 402        uint    fec_ecntrl;             /* ethernet control register            */
 403        uint    fec_ievent;             /* interrupt event register             */
 404        uint    fec_imask;              /* interrupt mask register              */
 405        uint    fec_ivec;               /* interrupt level and vector status    */
 406        uint    fec_r_des_active;       /* Rx ring updated flag                 */
 407        uint    fec_x_des_active;       /* Tx ring updated flag                 */
 408        uint    res3[10];               /* reserved                             */
 409        uint    fec_mii_data;           /* MII data register                    */
 410        uint    fec_mii_speed;          /* MII speed control register           */
 411        uint    res4[17];               /* reserved                             */
 412        uint    fec_r_bound;            /* end of RAM (read-only)               */
 413        uint    fec_r_fstart;           /* Rx FIFO start address                */
 414        uint    res5[6];                /* reserved                             */
 415        uint    fec_x_fstart;           /* Tx FIFO start address                */
 416        uint    res6[17];               /* reserved                             */
 417        uint    fec_fun_code;           /* fec SDMA function code               */
 418        uint    res7[3];                /* reserved                             */
 419        uint    fec_r_cntrl;            /* Rx control register                  */
 420        uint    fec_r_hash;             /* Rx hash register                     */
 421        uint    res8[14];               /* reserved                             */
 422        uint    fec_x_cntrl;            /* Tx control register                  */
 423        uint    res9[0x1e];             /* reserved                             */
 424} fec_t;
 425
 426/* The FEC and LCD color map share the same address space....
 427 * I guess we will never see an 823T :-).
 428 */
 429union fec_lcd {
 430        fec_t   fl_un_fec;
 431        u_char  fl_un_cmap[0x200];
 432};
 433
 434typedef struct comm_proc {
 435        /* General control and status registers.
 436        */
 437        ushort  cp_cpcr;
 438        u_char  res1[2];
 439        ushort  cp_rccr;
 440        u_char  res2;
 441        u_char  cp_rmds;
 442        u_char  res3[4];
 443        ushort  cp_cpmcr1;
 444        ushort  cp_cpmcr2;
 445        ushort  cp_cpmcr3;
 446        ushort  cp_cpmcr4;
 447        u_char  res4[2];
 448        ushort  cp_rter;
 449        u_char  res5[2];
 450        ushort  cp_rtmr;
 451        u_char  res6[0x14];
 452
 453        /* Baud rate generators.
 454        */
 455        uint    cp_brgc1;
 456        uint    cp_brgc2;
 457        uint    cp_brgc3;
 458        uint    cp_brgc4;
 459
 460        /* Serial Communication Channels.
 461        */
 462        scc_t   cp_scc[4];
 463
 464        /* Serial Management Channels.
 465        */
 466        smc_t   cp_smc[2];
 467
 468        /* Serial Peripheral Interface.
 469        */
 470        ushort  cp_spmode;
 471        u_char  res7[4];
 472        u_char  cp_spie;
 473        u_char  res8[3];
 474        u_char  cp_spim;
 475        u_char  res9[2];
 476        u_char  cp_spcom;
 477        u_char  res10[2];
 478
 479        /* Parallel Interface Port.
 480        */
 481        u_char  res11[2];
 482        ushort  cp_pipc;
 483        u_char  res12[2];
 484        ushort  cp_ptpr;
 485        uint    cp_pbdir;
 486        uint    cp_pbpar;
 487        u_char  res13[2];
 488        ushort  cp_pbodr;
 489        uint    cp_pbdat;
 490
 491        /* Port E - MPC87x/88x only.
 492         */
 493        uint    cp_pedir;
 494        uint    cp_pepar;
 495        uint    cp_peso;
 496        uint    cp_peodr;
 497        uint    cp_pedat;
 498
 499        /* Communications Processor Timing Register -
 500           Contains RMII Timing for the FECs on MPC87x/88x only.
 501        */
 502        uint    cp_cptr;
 503
 504        /* Serial Interface and Time Slot Assignment.
 505        */
 506        uint    cp_simode;
 507        u_char  cp_sigmr;
 508        u_char  res15;
 509        u_char  cp_sistr;
 510        u_char  cp_sicmr;
 511        u_char  res16[4];
 512        uint    cp_sicr;
 513        uint    cp_sirp;
 514        u_char  res17[0xc];
 515
 516        /* 256 bytes of MPC823 video controller RAM array.
 517        */
 518        u_char  cp_vcram[0x100];
 519        u_char  cp_siram[0x200];
 520
 521        /* The fast ethernet controller is not really part of the CPM,
 522         * but it resides in the address space.
 523         * The LCD color map is also here.
 524         */
 525        union   fec_lcd fl_un;
 526#define cp_fec          fl_un.fl_un_fec
 527#define lcd_cmap        fl_un.fl_un_cmap
 528        char    res18[0xE00];
 529
 530        /* The DUET family has a second FEC here */
 531        fec_t   cp_fec2;
 532#define cp_fec1 cp_fec  /* consistency macro */
 533
 534        /* Dual Ported RAM follows.
 535         * There are many different formats for this memory area
 536         * depending upon the devices used and options chosen.
 537         * Some processors don't have all of it populated.
 538         */
 539        u_char  cp_dpmem[0x1C00];       /* BD / Data / ucode */
 540        u_char  cp_dparam[0x400];       /* Parameter RAM */
 541} cpm8xx_t;
 542
 543/* Internal memory map.
 544*/
 545typedef struct immap {
 546        sysconf8xx_t    im_siu_conf;    /* SIU Configuration */
 547        pcmconf8xx_t    im_pcmcia;      /* PCMCIA Configuration */
 548        memctl8xx_t     im_memctl;      /* Memory Controller */
 549        sit8xx_t        im_sit;         /* System integration timers */
 550        car8xx_t        im_clkrst;      /* Clocks and reset */
 551        sitk8xx_t       im_sitk;        /* Sys int timer keys */
 552        cark8xx_t       im_clkrstk;     /* Clocks and reset keys */
 553        vid823_t        im_vid;         /* Video (823 only) */
 554        lcd823_t        im_lcd;         /* LCD (823 only) */
 555        i2c8xx_t        im_i2c;         /* I2C control/status */
 556        sdma8xx_t       im_sdma;        /* SDMA control/status */
 557        cpic8xx_t       im_cpic;        /* CPM Interrupt Controller */
 558        iop8xx_t        im_ioport;      /* IO Port control/status */
 559        cpmtimer8xx_t   im_cpmtimer;    /* CPM timers */
 560        cpm8xx_t        im_cpm;         /* Communication processor */
 561} immap_t;
 562
 563#endif /* __IMMAP_8XX__ */
 564#endif /* __KERNEL__ */
 565