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authorJoel Sherrill <joel.sherrill@OARcorp.com>1999-06-14 18:17:33 +0000
committerJoel Sherrill <joel.sherrill@OARcorp.com>1999-06-14 18:17:33 +0000
commitfbe75c6e547d10d916b64d229de0260433898098 (patch)
tree1fb261092b88092824699d5df10df779a3601a9b /c/src/lib/libcpu/powerpc/mpc821/include/mpc821.h
parentThis is a large patch from Eric Valette <valette@crf.canon.fr> that was (diff)
downloadrtems-fbe75c6e547d10d916b64d229de0260433898098.tar.bz2
This is a large patch from Eric Valette <valette@crf.canon.fr> that was
described in the message following this paragraph. This patch also includes a mcp750 BSP. From valette@crf.canon.fr Mon Jun 14 10:03:08 1999 Date: Tue, 18 May 1999 01:30:14 +0200 (CEST) From: VALETTE Eric <valette@crf.canon.fr> To: joel@oarcorp.com Cc: raguet@crf.canon.fr, rtems-snapshots@oarcorp.com, valette@crf.canon.fr Subject: Questions/Suggestion regarding RTEMS PowerPC code (long) Dear knowledgeable RTEMS powerpc users, As some of you may know, I'm currently finalizing a port of RTEMS on a MCP750 Motorola board. I have done most of it but have some questions to ask before submitting the port. In order to understand some of the changes I have made or would like to make, maybe it is worth describing the MCP750 Motorola board. the MCP750 is a COMPACT PCI powerpc board with : 1) a MPC750 233 MHz processor, 2) a raven bus bridge/PCI controller that implement an OPENPIC compliant interrupt controller, 3) a VIA 82C586 PCI/ISA bridge that offers a PC compliant IO for keyboard, serial line, IDE, and the well known PC 8259 cascaded PIC interrupt architecture model, 4) a DEC 21140 Ethernet controller, 5) the PPCBUG Motorola firmware in flash, 6) A DEC PCI bridge, This architecture is common to most Motorola 60x/7xx board except that : 1) on VME board, the DEC PCI bridge is replaced by a VME chipset, 2) the VIA 82C586 PCI/ISA bridge is replaced by another bridge that is almost fully compatible with the via bridge... So the port should be a rather close basis for many 60x/7xx motorola board... On this board, I already have ported Linux 2.2.3 and use it both as a development and target board. Now the questions/suggestions I have : 1) EXCEPTION CODE ------------------- As far as I know exceptions on PPC are handled like interrupts. I dislike this very much as : a) Except for the decrementer exception (and maybe some other on mpc8xx), exceptions are not recoverable and the handler just need to print the full context and go to the firmware or debugger... b) The interrupt switch is only necessary for the decrementer and external interrupt (at least on 6xx,7xx). c) The full context for exception is never saved and thus cannot be used by debugger... I do understand the most important for interrupts low level code is to save the minimal context enabling to call C code for performance reasons. On non recoverable exception on the other hand, the most important is to save the maximum information concerning proc status in order to analyze the reason of the fault. At least we will need this in order to implement the port of RGDB on PPC ==> I wrote an API for connecting raw exceptions (and thus raw interrupts) for mpc750. It should be valid for most powerpc processors... I hope to find a way to make this coexist with actual code layout. The code is actually located in lib/libcpu/powerpc/mpc750 and is thus optional (provided I write my own version of exec/score/cpu/powerpc/cpu.c ...) See remark about files/directory layout organization in 4) 2) Current Implementation of ISR low level code ----------------------------------------------- I do not understand why the MSR EE flags is cleared again in exec/score/cpu/powerpc/irq_stubs.S #if (PPC_USE_SPRG) mfmsr r5 mfspr r6, sprg2 #else lwz r6,msr_initial(r11) lis r5,~PPC_MSR_DISABLE_MASK@ha ori r5,r5,~PPC_MSR_DISABLE_MASK@l and r6,r6,r5 mfmsr r5 #endif Reading the doc, when a decrementer interrupt or an external interrupt is active, the MSR EE flag is already cleared. BTW if exception/interrupt could occur, it would trash SRR0 and SRR1. In fact the code may be useful to set MSR[RI] that re-enables exception processing. BTW I will need to set other value in MSR to handle interrupts : a) I want the MSR[IR] and MSR[DR] to be set for performance reasons and also because I need DBAT support to have access to PCI memory space as the interrupt controller is in the PCI space. Reading the code, I see others have the same kind of request : /* SCE 980217 * * We need address translation ON when we call our ISR routine mtmsr r5 */ This is just another prof that even the lowest level IRQ code is fundamentally board dependent and not simply processor dependent especially when the processor use external interrupt controller because it has a single interrupt request line... Note that if you look at the PPC code high level interrupt handling code, as the "set_vector" routine that really connects the interrupt is in the BSP/startup/genpvec.c, the fact that IRQ handling is BSP specific is DE-FACTO acknowledged. I know I have already expressed this and understand that this would require some heavy change in the code but believe me you will reach a point where you will not be able to find a compatible while optimum implementation for low level interrupt handling code...) In my case this is already true... So please consider removing low level IRQ handling from exec/score/cpu/* and only let there exception handling code... Exceptions are usually only processor dependent and do not depend on external hardware mechanism to be masked or acknowledged or re-enabled (there are probably exception but ...) I have already done this for pc386 bsp but need to make it again. This time I will even propose an API. 3) R2/R13 manipulation for EABI implementation ---------------------------------------------- I do not understand the handling of r2 and r13 in the EABI case. The specification for r2 says pointer to sdata2, sbss2 section => constant. However I do not see -ffixed-r2 passed to any compilation system in make/custom/* (for info linux does this on PPC). So either this is a default compiler option when choosing powerpc-rtems and thus we do not need to do anything with this register as all the code is compiled with this compiler and linked together OR this register may be used by rtems code and then we do not need any special initialization or handling. The specification for r13 says pointer to the small data area. r13 argumentation is the same except that as far as I know the usage of the small data area requires specific compiler support so that access to variables is compiled via loading the LSB in a register and then using r13 to get full address... It is like a small memory model and it was present in IBM C compilers. => I propose to suppress any specific code for r2 and r13 in the EABI case. 4) Code layout organization (yes again :-)) ------------------------------------------- I think there are a number of design flaws in the way the code is for ppc organized and I will try to point them out. I have been beaten by this again on this new port, and was beaten last year while modifying code for pc386. a) exec/score/cpu/* vs lib/libcpu/cpu/*. I think that too many things are put in exec/score/cpu that have nothing to do with RTEMS internals but are rather related to CPU feature. This include at least : a) registers access routine (e.g GET_MSR_Value), b) interrupt masking/unmasking routines, c) cache_mngt_routine, d) mmu_mngt_routine, e) Routines to connect the raw_exception, raw_interrupt handler, b) lib/libcpu/cpu/powerpc/* With a processor family as exuberant as the powerpc family, and their well known subtle differences (604 vs 750) or unfortunately majors (8xx vs 60x) the directory structure is fine (except maybe the names that are not homogeneous) powerpc ppc421 mpc821 ... I only needed to add mpc750. But the fact that libcpu.a was not produced was a pain and the fact that this organization may duplicates code is also problematic. So, except if the support of automake provides a better solution I would like to propose something like this : powerpc mpc421 mpc821 ... mpc750 shared wrapup with the following rules : a) "shared" would act as a source container for sources that may be shared among processors. Needed files would be compiled inside the processor specific directory using the vpath Makefile mechanism. "shared" may also contain compilation code for routine that are really shared and not worth to inline... (did not found many things so far as registers access routine ARE WORTH INLINING)... In the case something is compiled there, it should create libcpushared.a b) layout under processor specific directory is free provided that 1)the result of the compilation process exports : libcpu/powerpc/"PROC"/*.h in $(PROJECT_INCLUDE)/libcpu 2) each processor specific directory creates a library called libcpuspecific.a Note that this organization enables to have a file that is nearly the same than in shared but that must differ because of processor differences... c) "wrapup" should create libcpu.a using libcpushared.a libcpuspecific.a and export it $(PROJECT_INCLUDE)/libcpu The only thing I have no ideal solution is the way to put shared definitions in "shared" and only processor specific definition in "proc". To give a concrete example, most MSR bit definition are shared among PPC processors and only some differs. if we create a single msr.h in shared it will have ifdef. If in msr.h we include libcpu/msr_c.h we will need to have it in each prowerpc specific directory (even empty). Opinions are welcomed ... Note that a similar mechanism exist in libbsp/i386 that also contains a shared directory that is used by several bsp like pc386 and i386ex and a similar wrapup mechanism... NB: I have done this for mpc750 and other processors could just use similar Makefiles... c) The exec/score/cpu/powerpc directory layout. I think the directory layout should be the same than the libcpu/powerpc. As it is not, there are a lot of ifdefs inside the code... And of course low level interrupt handling code should be removed... Besides that I do not understand why 1) things are compiled in the wrap directory, 2) some includes are moved to rtems/score, I think the "preinstall" mechanism enables to put everything in the current directory (or better in a per processor directory), 5) Interrupt handling API ------------------------- Again :-). But I think that using all the features the PIC offers is a MUST for RT system. I already explained in the prologue of this (long and probably boring) mail that the MCP750 boards offers an OPENPIC compliant architecture and that the VIA 82586 PCI/ISA bridge offers a PC compatible IO and PIC mapping. Here is a logical view of the RAVEN/VIA 82586 interrupt mapping : --------- 0 ------ | OPEN | <-----|8259| | PIC | | | 2 ------ |(RAVEN)| | | <-----|8259| | | | | | | 11 | | | | | | <---- | | | | | | | | | | | | --------- ------ | | ^ ------ | VIA PCI/ISA bridge | x -------- PCI interrupts OPENPIC offers interrupt priorities among PCI interrupts and interrupt selective masking. The 8259 offers the same kind of feature. With actual powerpc interrupt code : 1) there is no way to specify priorities among interrupts handler. This is REALLY a bad thing. For me it is as importnat as having priorities for threads... 2) for my implementation, each ISR should contain the code that acknowledge the RAVEN and 8259 cascade, modify interrupt mask on both chips, and reenable interrupt at processor level, ..., restore then on interrupt return,.... This code is actually similar to code located in some genpvec.c powerpc files, 3) I must update _ISR_Nesting_level because irq.inl use it... 4) the libchip code connects the ISR via set_vector but the libchip handler code does not contain any code to manipulate external interrupt controller hardware in order to acknoledge the interrupt or re-enable them (except for the target hardware of course) So this code is broken unless set_vector adds an additionnal prologue/epilogue before calling/returning from in order to acknoledge/mask the raven and the 8259 PICS... => Anyway already EACH BSP MUST REWRITE PART OF INTERRUPT HANDLING CODE TO CORRECTLY IMPLEMENT SET_VECTOR. I would rather offer an API similar to the one provided in libbsp/i386/shared/irq/irq.h so that : 1) Once the driver supplied methods is called the only things the ISR has to do is to worry about the external hardware that triggered the interrupt. Everything on openpic/VIA/processor would have been done by the low levels (same things as set-vector) 2) The caller will need to supply the on/off/isOn routine that are fundamental to correctly implements debuggers/performance monitoring is a portable way 3) A globally configurable interrupt priorities mechanism... I have nothing against providing a compatible set_vector just to make libchip happy but as I have already explained in other mails (months ago), I really think that the ISR connection should be handled by the BSP and that no code containing irq connection should exist the rtems generic layers... Thus I really dislike libchip on this aspect because in a long term it will force to adopt the less reach API for interrupt handling that exists (set_vector). Additional note : I think the _ISR_Is_in_progress() inline routine should be : 1) Put in a processor specific section, 2) Should not rely on a global variable, As : a) on symmetric MP, there is one interrupt level per CPU, b) On processor that have an ISP (e,g 68040), this variable is useless (MSR bit testing could be used) c) On PPC, instead of using the address of the variable via __CPU_IRQ_info.Nest_level a dedicated SPR could be used. NOTE: most of this is also true for _Thread_Dispatch_disable_level END NOTE -------- Please do not take what I said in the mail as a criticism for anyone who submitted ppc code. Any code present helped me a lot understanding PPC behavior. I just wanted by this mail to : 1) try to better understand the actual code, 2) propose concrete ways of enhancing current code by providing an alternative implementation for MCP750. I will make my best effort to try to brake nothing but this is actually hard due to the file layout organisation. 3) make understandable some changes I will probably make if joel let me do them :-) Any comments/objections are welcomed as usual. -- __ / ` Eric Valette /-- __ o _. Canon CRF (___, / (_(_(__ Rue de la touche lambert 35517 Cesson-Sevigne Cedex FRANCE Tel: +33 (0)2 99 87 68 91 Fax: +33 (0)2 99 84 11 30 E-mail: valette@crf.canon.fr
Diffstat (limited to 'c/src/lib/libcpu/powerpc/mpc821/include/mpc821.h')
-rw-r--r--c/src/lib/libcpu/powerpc/mpc821/include/mpc821.h1237
1 files changed, 1237 insertions, 0 deletions
diff --git a/c/src/lib/libcpu/powerpc/mpc821/include/mpc821.h b/c/src/lib/libcpu/powerpc/mpc821/include/mpc821.h
new file mode 100644
index 0000000000..aa8c271f47
--- /dev/null
+++ b/c/src/lib/libcpu/powerpc/mpc821/include/mpc821.h
@@ -0,0 +1,1237 @@
+/*
+**************************************************************************
+**************************************************************************
+** **
+** MOTOROLA MPC21 PORTABLE SYSTEMS MICROPROCESSOR **
+** **
+** HARDWARE DECLARATIONS **
+** **
+** **
+** Submitted By: **
+** **
+** W. Eric Norum **
+** Saskatchewan Accelerator Laboratory **
+** University of Saskatchewan **
+** 107 North Road **
+** Saskatoon, Saskatchewan, CANADA **
+** S7N 5C6 **
+** **
+** eric@skatter.usask.ca **
+** **
+** Modified for use with the MPC860 (original code was for MC68360) **
+** by **
+** Jay Monkman **
+** Frasca International, Inc. **
+** 906 E. Airport Rd. **
+** Urbana, IL, 61801 **
+** **
+** jmonkman@frasca.com **
+** **
+** Modified further for use with the MPC821 by: **
+** Andrew Bray <andy@chaos.org.uk> **
+** **
+**************************************************************************
+**************************************************************************
+*/
+
+#ifndef __MPC821_h
+#define __MPC821_h
+
+#ifndef ASM
+/*
+ Macros for SPRs
+*/
+
+#define M821_MI_CTR_GPM (1<<31)
+#define M821_MI_CTR_PPM (1<<30)
+#define M821_MI_CTR_CIDEF (1<<29)
+#define M821_MI_CTR_RSV4I (1<<27)
+#define M821_MI_CTR_PPCS (1<<25)
+
+#define M821_MD_CTR_GPM (1<<31)
+#define M821_MD_CTR_PPM (1<<30)
+#define M821_MD_CTR_CIDEF (1<<29)
+#define M821_MD_CTR_WTDEF (1<<28)
+#define M821_MD_CTR_RSV4D (1<<27)
+#define M821_MD_CTR_TWAM (1<<26)
+#define M821_MD_CTR_PPCS (1<<25)
+
+#define M821_MI_EPN_VALID (1<<9)
+
+#define M821_MD_EPN_VALID (1<<9)
+
+#define M821_MI_TWC_G (1<<4)
+#define M821_MI_TWC_PSS (0<<2)
+#define M821_MI_TWC_PS512 (1<<2)
+#define M821_MI_TWC_PS8 (3<<2)
+#define M821_MI_TWC_VALID (1)
+
+#define M821_MD_TWC_G (1<<4)
+#define M821_MD_TWC_PSS (0<<2)
+#define M821_MD_TWC_PS512 (1<<2)
+#define M821_MD_TWC_PS8 (3<<2)
+#define M821_MD_TWC_WT (1<<1)
+#define M821_MD_TWC_VALID (1)
+
+#define M821_MI_RPN_F (0xf<<4)
+#define M821_MI_RPN_16K (1<<3)
+#define M821_MI_RPN_SHARED (1<<2)
+#define M821_MI_RPN_CI (1<<1)
+#define M821_MI_RPN_VALID (1)
+
+#define M821_MD_RPN_CHANGE (1<<8)
+#define M821_MD_RPN_F (0xf<<4)
+#define M821_MD_RPN_16K (1<<3)
+#define M821_MD_RPN_SHARED (1<<2)
+#define M821_MD_RPN_CI (1<<1)
+#define M821_MD_RPN_VALID (1)
+
+#define M821_MI_AP_Kp (1)
+
+#define M821_MD_AP_Kp (1)
+
+#define M821_CACHE_CMD_SFWT (0x1<<24)
+#define M821_CACHE_CMD_ENABLE (0x2<<24)
+#define M821_CACHE_CMD_CFWT (0x3<<24)
+#define M821_CACHE_CMD_DISABLE (0x4<<24)
+#define M821_CACHE_CMD_STLES (0x5<<24)
+#define M821_CACHE_CMD_LLCB (0x6<<24)
+#define M821_CACHE_CMD_CLES (0x7<<24)
+#define M821_CACHE_CMD_UNLOCK (0x8<<24)
+#define M821_CACHE_CMD_UNLOCKALL (0xa<<24)
+#define M821_CACHE_CMD_INVALIDATE (0xc<<24)
+#define M821_CACHE_CMD_FLUSH (0xe<<24)
+
+
+
+/*
+*************************************************************************
+* REGISTER SUBBLOCKS *
+*************************************************************************
+*/
+
+/*
+ * Memory controller registers
+ */
+typedef struct m821MEMCRegisters_ {
+ rtems_unsigned32 br;
+ rtems_unsigned32 or;
+} m821MEMCRegisters_t;
+
+/*
+ * Serial Communications Controller registers
+ */
+typedef struct m821SCCRegisters_ {
+ rtems_unsigned32 gsmr_l;
+ rtems_unsigned32 gsmr_h;
+ rtems_unsigned16 psmr;
+ rtems_unsigned16 _pad0;
+ rtems_unsigned16 todr;
+ rtems_unsigned16 dsr;
+ rtems_unsigned16 scce;
+ rtems_unsigned16 _pad1;
+ rtems_unsigned16 sccm;
+ rtems_unsigned8 _pad2;
+ rtems_unsigned8 sccs;
+ rtems_unsigned32 _pad3[2];
+} m821SCCRegisters_t;
+
+/*
+ * Serial Management Controller registers
+ */
+typedef struct m821SMCRegisters_ {
+ rtems_unsigned16 _pad0;
+ rtems_unsigned16 smcmr;
+ rtems_unsigned16 _pad1;
+ rtems_unsigned8 smce;
+ rtems_unsigned8 _pad2;
+ rtems_unsigned16 _pad3;
+ rtems_unsigned8 smcm;
+ rtems_unsigned8 _pad4;
+ rtems_unsigned32 _pad5;
+} m821SMCRegisters_t;
+
+/*
+*************************************************************************
+* Miscellaneous Parameters *
+*************************************************************************
+*/
+typedef struct m821MiscParms_ {
+ rtems_unsigned16 rev_num;
+ rtems_unsigned16 _res1;
+ rtems_unsigned32 _res2;
+ rtems_unsigned32 _res3;
+} m821MiscParms_t;
+
+/*
+*************************************************************************
+* RISC Timers *
+*************************************************************************
+*/
+typedef struct m821TimerParms_ {
+ rtems_unsigned16 tm_base;
+ rtems_unsigned16 _tm_ptr;
+ rtems_unsigned16 _r_tmr;
+ rtems_unsigned16 _r_tmv;
+ rtems_unsigned32 tm_cmd;
+ rtems_unsigned32 tm_cnt;
+} m821TimerParms_t;
+
+/*
+ * RISC Controller Configuration Register (RCCR)
+ * All other bits in this register are reserved.
+ */
+#define M821_RCCR_TIME (1<<15) /* Enable timer */
+#define M821_RCCR_TIMEP(x) ((x)<<8) /* Timer period */
+#define M821_RCCR_DR1M (1<<7) /* IDMA Rqst 1 Mode */
+#define M821_RCCR_DR0M (1<<6) /* IDMA Rqst 0 Mode */
+#define M821_RCCR_DRQP(x) ((x)<<4) /* IDMA Rqst Priority */
+#define M821_RCCR_EIE (1<<3) /* External Interrupt Enable */
+#define M821_RCCR_SCD (1<<2) /* Scheduler Configuration */
+#define M821_RCCR_ERAM(x) (x) /* Enable RAM Microcode */
+
+/*
+ * Command register
+ * Set up this register before issuing a M821_CR_OP_SET_TIMER command.
+ */
+#define M821_TM_CMD_V (1<<31) /* Set to enable timer */
+#define M821_TM_CMD_R (1<<30) /* Set for automatic restart */
+#define M821_TM_CMD_PWM (1<<29) /* Set for PWM operation */
+#define M821_TM_CMD_TIMER(x) ((x)<<16) /* Select timer */
+#define M821_TM_CMD_PERIOD(x) (x) /* Timer period (16 bits) */
+
+/*
+*************************************************************************
+* DMA Controllers *
+*************************************************************************
+*/
+typedef struct m821IDMAparms_ {
+ rtems_unsigned16 ibase;
+ rtems_unsigned16 dcmr;
+ rtems_unsigned32 _sapr;
+ rtems_unsigned32 _dapr;
+ rtems_unsigned16 ibptr;
+ rtems_unsigned16 _write_sp;
+ rtems_unsigned32 _s_byte_c;
+ rtems_unsigned32 _d_byte_c;
+ rtems_unsigned32 _s_state;
+ rtems_unsigned32 _itemp[4];
+ rtems_unsigned32 _sr_mem;
+ rtems_unsigned16 _read_sp;
+ rtems_unsigned16 _res0;
+ rtems_unsigned16 _res1;
+ rtems_unsigned16 _res2;
+ rtems_unsigned32 _d_state;
+} m821IDMAparms_t;
+
+
+/*
+*************************************************************************
+* DSP *
+*************************************************************************
+*/
+typedef struct m821DSPparms_ {
+ rtems_unsigned32 fdbase;
+ rtems_unsigned32 _fd_ptr;
+ rtems_unsigned32 _dstate;
+ rtems_unsigned32 _pad0;
+ rtems_unsigned16 _dstatus;
+ rtems_unsigned16 _i;
+ rtems_unsigned16 _tap;
+ rtems_unsigned16 _cbase;
+ rtems_unsigned16 _pad1;
+ rtems_unsigned16 _xptr;
+ rtems_unsigned16 _pad2;
+ rtems_unsigned16 _yptr;
+ rtems_unsigned16 _m;
+ rtems_unsigned16 _pad3;
+ rtems_unsigned16 _n;
+ rtems_unsigned16 _pad4;
+ rtems_unsigned16 _k;
+ rtems_unsigned16 _pad5;
+} m821DSPparms_t;
+
+/*
+*************************************************************************
+* Serial Communication Controllers *
+*************************************************************************
+*/
+typedef struct m821SCCparms_ {
+ rtems_unsigned16 rbase;
+ rtems_unsigned16 tbase;
+ rtems_unsigned8 rfcr;
+ rtems_unsigned8 tfcr;
+ rtems_unsigned16 mrblr;
+ rtems_unsigned32 _rstate;
+ rtems_unsigned32 _pad0;
+ rtems_unsigned16 _rbptr;
+ rtems_unsigned16 _pad1;
+ rtems_unsigned32 _pad2;
+ rtems_unsigned32 _tstate;
+ rtems_unsigned32 _pad3;
+ rtems_unsigned16 _tbptr;
+ rtems_unsigned16 _pad4;
+ rtems_unsigned32 _pad5;
+ rtems_unsigned32 _rcrc;
+ rtems_unsigned32 _tcrc;
+ union {
+ struct {
+ rtems_unsigned32 _res0;
+ rtems_unsigned32 _res1;
+ rtems_unsigned16 max_idl;
+ rtems_unsigned16 _idlc;
+ rtems_unsigned16 brkcr;
+ rtems_unsigned16 parec;
+ rtems_unsigned16 frmec;
+ rtems_unsigned16 nosec;
+ rtems_unsigned16 brkec;
+ rtems_unsigned16 brklen;
+ rtems_unsigned16 uaddr[2];
+ rtems_unsigned16 _rtemp;
+ rtems_unsigned16 toseq;
+ rtems_unsigned16 character[8];
+ rtems_unsigned16 rccm;
+ rtems_unsigned16 rccr;
+ rtems_unsigned16 rlbc;
+ } uart;
+ } un;
+} m821SCCparms_t;
+
+typedef struct m821SCCENparms_ {
+ rtems_unsigned16 rbase;
+ rtems_unsigned16 tbase;
+ rtems_unsigned8 rfcr;
+ rtems_unsigned8 tfcr;
+ rtems_unsigned16 mrblr;
+ rtems_unsigned32 _rstate;
+ rtems_unsigned32 _pad0;
+ rtems_unsigned16 _rbptr;
+ rtems_unsigned16 _pad1;
+ rtems_unsigned32 _pad2;
+ rtems_unsigned32 _tstate;
+ rtems_unsigned32 _pad3;
+ rtems_unsigned16 _tbptr;
+ rtems_unsigned16 _pad4;
+ rtems_unsigned32 _pad5;
+ rtems_unsigned32 _rcrc;
+ rtems_unsigned32 _tcrc;
+ union {
+ struct {
+ rtems_unsigned32 _res0;
+ rtems_unsigned32 _res1;
+ rtems_unsigned16 max_idl;
+ rtems_unsigned16 _idlc;
+ rtems_unsigned16 brkcr;
+ rtems_unsigned16 parec;
+ rtems_unsigned16 frmec;
+ rtems_unsigned16 nosec;
+ rtems_unsigned16 brkec;
+ rtems_unsigned16 brklen;
+ rtems_unsigned16 uaddr[2];
+ rtems_unsigned16 _rtemp;
+ rtems_unsigned16 toseq;
+ rtems_unsigned16 character[8];
+ rtems_unsigned16 rccm;
+ rtems_unsigned16 rccr;
+ rtems_unsigned16 rlbc;
+ } uart;
+ struct {
+ rtems_unsigned32 c_pres;
+ rtems_unsigned32 c_mask;
+ rtems_unsigned32 crcec;
+ rtems_unsigned32 alec;
+ rtems_unsigned32 disfc;
+ rtems_unsigned16 pads;
+ rtems_unsigned16 ret_lim;
+ rtems_unsigned16 _ret_cnt;
+ rtems_unsigned16 mflr;
+ rtems_unsigned16 minflr;
+ rtems_unsigned16 maxd1;
+ rtems_unsigned16 maxd2;
+ rtems_unsigned16 _maxd;
+ rtems_unsigned16 dma_cnt;
+ rtems_unsigned16 _max_b;
+ rtems_unsigned16 gaddr1;
+ rtems_unsigned16 gaddr2;
+ rtems_unsigned16 gaddr3;
+ rtems_unsigned16 gaddr4;
+ rtems_unsigned32 _tbuf0data0;
+ rtems_unsigned32 _tbuf0data1;
+ rtems_unsigned32 _tbuf0rba0;
+ rtems_unsigned32 _tbuf0crc;
+ rtems_unsigned16 _tbuf0bcnt;
+ rtems_unsigned16 paddr_h;
+ rtems_unsigned16 paddr_m;
+ rtems_unsigned16 paddr_l;
+ rtems_unsigned16 p_per;
+ rtems_unsigned16 _rfbd_ptr;
+ rtems_unsigned16 _tfbd_ptr;
+ rtems_unsigned16 _tlbd_ptr;
+ rtems_unsigned32 _tbuf1data0;
+ rtems_unsigned32 _tbuf1data1;
+ rtems_unsigned32 _tbuf1rba0;
+ rtems_unsigned32 _tbuf1crc;
+ rtems_unsigned16 _tbuf1bcnt;
+ rtems_unsigned16 _tx_len;
+ rtems_unsigned16 iaddr1;
+ rtems_unsigned16 iaddr2;
+ rtems_unsigned16 iaddr3;
+ rtems_unsigned16 iaddr4;
+ rtems_unsigned16 _boff_cnt;
+ rtems_unsigned16 taddr_l;
+ rtems_unsigned16 taddr_m;
+ rtems_unsigned16 taddr_h;
+ } ethernet;
+ } un;
+} m821SCCENparms_t;
+
+/*
+ * Receive and transmit function code register bits
+ * These apply to the function code registers of all devices, not just SCC.
+ */
+#define M821_RFCR_BO(x) ((x)<<3)
+#define M821_RFCR_MOT (2<<3)
+#define M821_RFCR_DMA_SPACE(x) (x)
+#define M821_TFCR_BO(x) ((x)<<3)
+#define M821_TFCR_MOT (2<<3)
+#define M821_TFCR_DMA_SPACE(x) (x)
+
+/*
+*************************************************************************
+* Serial Management Controllers *
+*************************************************************************
+*/
+typedef struct m821SMCparms_ {
+ rtems_unsigned16 rbase;
+ rtems_unsigned16 tbase;
+ rtems_unsigned8 rfcr;
+ rtems_unsigned8 tfcr;
+ rtems_unsigned16 mrblr;
+ rtems_unsigned32 _rstate;
+ rtems_unsigned32 _pad0;
+ rtems_unsigned16 _rbptr;
+ rtems_unsigned16 _pad1;
+ rtems_unsigned32 _pad2;
+ rtems_unsigned32 _tstate;
+ rtems_unsigned32 _pad3;
+ rtems_unsigned16 _tbptr;
+ rtems_unsigned16 _pad4;
+ rtems_unsigned32 _pad5;
+ union {
+ struct {
+ rtems_unsigned16 max_idl;
+ rtems_unsigned16 _idlc;
+ rtems_unsigned16 brklen;
+ rtems_unsigned16 brkec;
+ rtems_unsigned16 brkcr;
+ rtems_unsigned16 _r_mask;
+ } uart;
+ struct {
+ rtems_unsigned16 _pad0[5];
+ } transparent;
+ } un;
+} m821SMCparms_t;
+
+/*
+ * Mode register
+ */
+#define M821_SMCMR_CLEN(x) ((x)<<11) /* Character length */
+#define M821_SMCMR_2STOP (1<<10) /* 2 stop bits */
+#define M821_SMCMR_PARITY (1<<9) /* Enable parity */
+#define M821_SMCMR_EVEN (1<<8) /* Even parity */
+#define M821_SMCMR_SM_GCI (0<<4) /* GCI Mode */
+#define M821_SMCMR_SM_UART (2<<4) /* UART Mode */
+#define M821_SMCMR_SM_TRANSPARENT (3<<4) /* Transparent Mode */
+#define M821_SMCMR_DM_LOOPBACK (1<<2) /* Local loopback mode */
+#define M821_SMCMR_DM_ECHO (2<<2) /* Echo mode */
+#define M821_SMCMR_TEN (1<<1) /* Enable transmitter */
+#define M821_SMCMR_REN (1<<0) /* Enable receiver */
+
+/*
+ * Event and mask registers (SMCE, SMCM)
+ */
+#define M821_SMCE_BRKE (1<<6)
+#define M821_SMCE_BRK (1<<4)
+#define M821_SMCE_BSY (1<<2)
+#define M821_SMCE_TX (1<<1)
+#define M821_SMCE_RX (1<<0)
+
+/*
+*************************************************************************
+* Serial Peripheral Interface *
+*************************************************************************
+*/
+typedef struct m821SPIparms_ {
+ rtems_unsigned16 rbase;
+ rtems_unsigned16 tbase;
+ rtems_unsigned8 rfcr;
+ rtems_unsigned8 tfcr;
+ rtems_unsigned16 mrblr;
+ rtems_unsigned32 _rstate;
+ rtems_unsigned32 _pad0;
+ rtems_unsigned16 _rbptr;
+ rtems_unsigned16 _pad1;
+ rtems_unsigned32 _pad2;
+ rtems_unsigned32 _tstate;
+ rtems_unsigned32 _pad3;
+ rtems_unsigned16 _tbptr;
+ rtems_unsigned16 _pad4;
+ rtems_unsigned32 _pad5;
+} m821SPIparms_t;
+
+/*
+ * Mode register (SPMODE)
+ */
+#define M821_SPMODE_LOOP (1<<14) /* Local loopback mode */
+#define M821_SPMODE_CI (1<<13) /* Clock invert */
+#define M821_SPMODE_CP (1<<12) /* Clock phase */
+#define M821_SPMODE_DIV16 (1<<11) /* Divide BRGCLK by 16 */
+#define M821_SPMODE_REV (1<<10) /* Reverse data */
+#define M821_SPMODE_MASTER (1<<9) /* SPI is master */
+#define M821_SPMODE_EN (1<<8) /* Enable SPI */
+#define M821_SPMODE_CLEN(x) ((x)<<4) /* Character length */
+#define M821_SPMODE_PM(x) (x) /* Prescaler modulus */
+
+/*
+ * Mode register (SPCOM)
+ */
+#define M821_SPCOM_STR (1<<7) /* Start transmit */
+
+/*
+ * Event and mask registers (SPIE, SPIM)
+ */
+#define M821_SPIE_MME (1<<5) /* Multi-master error */
+#define M821_SPIE_TXE (1<<4) /* Tx error */
+#define M821_SPIE_BSY (1<<2) /* Busy condition*/
+#define M821_SPIE_TXB (1<<1) /* Tx buffer */
+#define M821_SPIE_RXB (1<<0) /* Rx buffer */
+
+/*
+*************************************************************************
+* SDMA (SCC, SMC, SPI) Buffer Descriptors *
+*************************************************************************
+*/
+typedef struct m821BufferDescriptor_ {
+ rtems_unsigned16 status;
+ rtems_unsigned16 length;
+ volatile void *buffer;
+} m821BufferDescriptor_t;
+
+/*
+ * Bits in receive buffer descriptor status word
+ */
+#define M821_BD_EMPTY (1<<15) /* Ethernet, SCC UART, SMC UART, SPI */
+#define M821_BD_WRAP (1<<13) /* Ethernet, SCC UART, SMC UART, SPI */
+#define M821_BD_INTERRUPT (1<<12) /* Ethernet, SCC UART, SMC UART, SPI */
+#define M821_BD_LAST (1<<11) /* Ethernet, SPI */
+#define M821_BD_CONTROL_CHAR (1<<11) /* SCC UART */
+#define M821_BD_FIRST_IN_FRAME (1<<10) /* Ethernet */
+#define M821_BD_ADDRESS (1<<10) /* SCC UART */
+#define M821_BD_CONTINUOUS (1<<9) /* SCC UART, SMC UART, SPI */
+#define M821_BD_MISS (1<<8) /* Ethernet */
+#define M821_BD_IDLE (1<<8) /* SCC UART, SMC UART */
+#define M821_BD_ADDRSS_MATCH (1<<7) /* SCC UART */
+#define M821_BD_LONG (1<<5) /* Ethernet */
+#define M821_BD_BREAK (1<<5) /* SCC UART, SMC UART */
+#define M821_BD_NONALIGNED (1<<4) /* Ethernet */
+#define M821_BD_FRAMING_ERROR (1<<4) /* SCC UART, SMC UART */
+#define M821_BD_SHORT (1<<3) /* Ethernet */
+#define M821_BD_PARITY_ERROR (1<<3) /* SCC UART, SMC UART */
+#define M821_BD_CRC_ERROR (1<<2) /* Ethernet */
+#define M821_BD_OVERRUN (1<<1) /* Ethernet, SCC UART, SMC UART, SPI */
+#define M821_BD_COLLISION (1<<0) /* Ethernet */
+#define M821_BD_CARRIER_LOST (1<<0) /* SCC UART, SMC UART */
+#define M821_BD_MASTER_ERROR (1<<0) /* SPI */
+
+/*
+ * Bits in transmit buffer descriptor status word
+ * Many bits have the same meaning as those in receiver buffer descriptors.
+ */
+#define M821_BD_READY (1<<15) /* Ethernet, SCC UART, SMC UART, SPI */
+#define M821_BD_PAD (1<<14) /* Ethernet */
+#define M821_BD_CTS_REPORT (1<<11) /* SCC UART */
+#define M821_BD_TX_CRC (1<<10) /* Ethernet */
+#define M821_BD_DEFER (1<<9) /* Ethernet */
+#define M821_BD_HEARTBEAT (1<<8) /* Ethernet */
+#define M821_BD_PREAMBLE (1<<8) /* SCC UART, SMC UART */
+#define M821_BD_LATE_COLLISION (1<<7) /* Ethernet */
+#define M821_BD_NO_STOP_BIT (1<<7) /* SCC UART */
+#define M821_BD_RETRY_LIMIT (1<<6) /* Ethernet */
+#define M821_BD_RETRY_COUNT(x) (((x)&0x3C)>>2) /* Ethernet */
+#define M821_BD_UNDERRUN (1<<1) /* Ethernet, SPI */
+#define M821_BD_CARRIER_LOST (1<<0) /* Ethernet */
+#define M821_BD_CTS_LOST (1<<0) /* SCC UART */
+
+/*
+*************************************************************************
+* IDMA Buffer Descriptors *
+*************************************************************************
+*/
+typedef struct m821IDMABufferDescriptor_ {
+ rtems_unsigned16 status;
+ rtems_unsigned8 dfcr;
+ rtems_unsigned8 sfcr;
+ rtems_unsigned32 length;
+ void *source;
+ void *destination;
+} m821IDMABufferDescriptor_t;
+
+/*
+*************************************************************************
+* RISC Communication Processor Module Command Register (CR) *
+*************************************************************************
+*/
+#define M821_CR_RST (1<<15) /* Reset communication processor */
+#define M821_CR_OP_INIT_RX_TX (0<<8) /* SCC, SMC UART, SMC GCI, SPI */
+#define M821_CR_OP_INIT_RX (1<<8) /* SCC, SMC UART, SPI */
+#define M821_CR_OP_INIT_TX (2<<8) /* SCC, SMC UART, SPI */
+#define M821_CR_OP_INIT_HUNT (3<<8) /* SCC, SMC UART */
+#define M821_CR_OP_STOP_TX (4<<8) /* SCC, SMC UART */
+#define M821_CR_OP_GR_STOP_TX (5<<8) /* SCC */
+#define M821_CR_OP_INIT_IDMA (5<<8) /* IDMA */
+#define M821_CR_OP_RESTART_TX (6<<8) /* SCC, SMC UART */
+#define M821_CR_OP_CLOSE_RX_BD (7<<8) /* SCC, SMC UART, SPI */
+#define M821_CR_OP_SET_GRP_ADDR (8<<8) /* SCC */
+#define M821_CR_OP_SET_TIMER (8<<8) /* Timer */
+#define M821_CR_OP_GCI_TIMEOUT (9<<8) /* SMC GCI */
+#define M821_CR_OP_RESERT_BCS (10<<8) /* SCC */
+#define M821_CR_OP_GCI_ABORT (10<<8) /* SMC GCI */
+#define M821_CR_OP_STOP_IDMA (11<<8) /* IDMA */
+#define M821_CR_OP_START_DSP (12<<8) /* DSP */
+#define M821_CR_OP_INIT_DSP (13<<8) /* DSP */
+
+#define M821_CR_CHAN_SCC1 (0<<4) /* Channel selection */
+#define M821_CR_CHAN_I2C (1<<4)
+#define M821_CR_CHAN_IDMA1 (1<<4)
+#define M821_CR_CHAN_SCC2 (4<<4)
+#define M821_CR_CHAN_SPI (5<<4)
+#define M821_CR_CHAN_IDMA2 (5<<4)
+#define M821_CR_CHAN_TIMER (5<<4)
+#define M821_CR_CHAN_SCC3 (8<<4)
+#define M821_CR_CHAN_SMC1 (9<<4)
+#define M821_CR_CHAN_DSP1 (9<<4)
+#define M821_CR_CHAN_SCC4 (12<<4)
+#define M821_CR_CHAN_SMC2 (13<<4)
+#define M821_CR_CHAN_DSP2 (13<<4)
+#define M821_CR_FLG (1<<0) /* Command flag */
+
+/*
+*************************************************************************
+* System Protection Control Register (SYPCR) *
+*************************************************************************
+*/
+#define M821_SYPCR_SWTC(x) ((x)<<16) /* Software watchdog timer count */
+#define M821_SYPCR_BMT(x) ((x)<<8) /* Bus monitor timing */
+#define M821_SYPCR_BME (1<<7) /* Bus monitor enable */
+#define M821_SYPCR_SWF (1<<3) /* Software watchdog freeze */
+#define M821_SYPCR_SWE (1<<2) /* Software watchdog enable */
+#define M821_SYPCR_SWRI (1<<1) /* Watchdog reset/interrupt sel. */
+#define M821_SYPCR_SWP (1<<0) /* Software watchdog prescale */
+
+/*
+*************************************************************************
+* Memory Control Registers *
+*************************************************************************
+*/
+#define M821_UPM_AMX_8col (0<<20) /* 8 column DRAM */
+#define M821_UPM_AMX_9col (1<<20) /* 9 column DRAM */
+#define M821_UPM_AMX_10col (2<<20) /* 10 column DRAM */
+#define M821_UPM_AMX_11col (3<<20) /* 11 column DRAM */
+#define M821_UPM_AMX_12col (4<<20) /* 12 column DRAM */
+#define M821_UPM_AMX_13col (5<<20) /* 13 column DRAM */
+#define M821_MSR_PER(x) (0x100<<(7-x)) /* Perity error bank (x) */
+#define M821_MSR_WPER (1<<7) /* Write protection error */
+#define M821_MPTPR_PTP(x) ((x)<<8) /* Periodic timer prescaler */
+#define M821_BR_BA(x) ((x)&0xffff8000) /* Base address */
+#define M821_BR_AT(x) ((x)<<12) /* Address type */
+#define M821_BR_PS8 (1<<10) /* 8 bit port */
+#define M821_BR_PS16 (2<<10) /* 16 bit port */
+#define M821_BR_PS32 (0<<10) /* 32 bit port */
+#define M821_BR_PARE (1<<9) /* Parity checking enable */
+#define M821_BR_WP (1<<8) /* Write protect */
+#define M821_BR_MS_GPCM (0<<6) /* GPCM */
+#define M821_BR_MS_UPMA (2<<6) /* UPM A */
+#define M821_BR_MS_UPMB (3<<6) /* UPM B */
+#define M821_MEMC_BR_V (1<<0) /* Base/Option register are valid */
+
+#define M821_MEMC_OR_32K 0xffff8000 /* Address range */
+#define M821_MEMC_OR_64K 0xffff0000
+#define M821_MEMC_OR_128K 0xfffe0000
+#define M821_MEMC_OR_256K 0xfffc0000
+#define M821_MEMC_OR_512K 0xfff80000
+#define M821_MEMC_OR_1M 0xfff00000
+#define M821_MEMC_OR_2M 0xffe00000
+#define M821_MEMC_OR_4M 0xffc00000
+#define M821_MEMC_OR_8M 0xff800000
+#define M821_MEMC_OR_16M 0xff000000
+#define M821_MEMC_OR_32M 0xfe000000
+#define M821_MEMC_OR_64M 0xfc000000
+#define M821_MEMC_OR_128 0xf8000000
+#define M821_MEMC_OR_256M 0xf0000000
+#define M821_MEMC_OR_512M 0xe0000000
+#define M821_MEMC_OR_1G 0xc0000000
+#define M821_MEMC_OR_2G 0x80000000
+#define M821_MEMC_OR_4G 0x00000000
+#define M821_MEMC_OR_ATM(x) ((x)<<12) /* Address type mask */
+#define M821_MEMC_OR_CSNT (1<<11) /* Chip select is negated early */
+#define M821_MEMC_OR_SAM (1<<11) /* Address lines are multiplexed */
+#define M821_MEMC_OR_ACS_NORM (0<<9) /* *CS asserted with addr lines */
+#define M821_MEMC_OR_ACS_QRTR (2<<9) /* *CS asserted 1/4 after addr */
+#define M821_MEMC_OR_ACS_HALF (3<<9) /* *CS asserted 1/2 after addr */
+#define M821_MEMC_OR_BI (1<8) /* Burst inhibit */
+#define M821_MEMC_OR_SCY(x) ((x)<<4) /* Cycle length in clocks */
+#define M821_MEMC_OR_SETA (1<<3) /* *TA generated externally */
+#define M821_MEMC_OR_TRLX (1<<2) /* Relaxed timing in GPCM */
+#define M821_MEMC_OR_EHTR (1<<1) /* Extended hold time on reads */
+
+/*
+*************************************************************************
+* UPM Registers (MxMR) *
+*************************************************************************
+*/
+#define M821_MEMC_MMR_PTP(x) ((x)<<24) /* Periodic timer period */
+#define M821_MEMC_MMR_PTE (1<<23) /* Periodic timer enable */
+#define M821_MEMC_MMR_DSP(x) ((x)<<17) /* Disable timer period */
+#define M821_MEMC_MMR_G0CL(x) ((x)<<13) /* General line 0 control */
+#define M821_MEMC_MMR_UPWAIT (1<<12) /* GPL_x4 is UPWAITx */
+#define M821_MEMC_MMR_RLF(x) ((x)<<8) /* Read loop field */
+#define M821_MEMC_MMR_WLF(x) ((x)<<4) /* Write loop field */
+#define M821_MEMC_MMR_TLF(x) ((x)<<0) /* Timer loop field */
+/*
+*************************************************************************
+* Memory Command Register (MCR) *
+*************************************************************************
+*/
+#define M821_MEMC_MCR_WRITE (0<<30) /* WRITE command */
+#define M821_MEMC_MCR_READ (1<<30) /* READ command */
+#define M821_MEMC_MCR_RUN (2<<30) /* RUN command */
+#define M821_MEMC_MCR_UPMA (0<<23) /* Cmd is for UPMA */
+#define M821_MEMC_MCR_UPMB (1<<23) /* Cmd is for UPMB */
+#define M821_MEMC_MCR_MB(x) ((x)<<13) /* Memory bank when RUN cmd */
+#define M821_MEMC_MCR_MCLF(x) ((x)<<8) /* Memory command loop field */
+#define M821_MEMC_MCR_MAD(x) (x) /* Machine address */
+
+
+
+/*
+*************************************************************************
+* SI Mode Register (SIMODE) *
+*************************************************************************
+*/
+#define M821_SI_SMC2_BITS 0xFFFF0000 /* All SMC2 bits */
+#define M821_SI_SMC2_TDM (1<<31) /* Multiplexed SMC2 */
+#define M821_SI_SMC2_BRG1 (0<<28) /* SMC2 clock souce */
+#define M821_SI_SMC2_BRG2 (1<<28)
+#define M821_SI_SMC2_BRG3 (2<<28)
+#define M821_SI_SMC2_BRG4 (3<<28)
+#define M821_SI_SMC2_CLK5 (0<<28)
+#define M821_SI_SMC2_CLK6 (1<<28)
+#define M821_SI_SMC2_CLK7 (2<<28)
+#define M821_SI_SMC2_CLK8 (3<<28)
+#define M821_SI_SMC1_BITS 0x0000FFFF /* All SMC1 bits */
+#define M821_SI_SMC1_TDM (1<<15) /* Multiplexed SMC1 */
+#define M821_SI_SMC1_BRG1 (0<<12) /* SMC1 clock souce */
+#define M821_SI_SMC1_BRG2 (1<<12)
+#define M821_SI_SMC1_BRG3 (2<<12)
+#define M821_SI_SMC1_BRG4 (3<<12)
+#define M821_SI_SMC1_CLK1 (0<<12)
+#define M821_SI_SMC1_CLK2 (1<<12)
+#define M821_SI_SMC1_CLK3 (2<<12)
+#define M821_SI_SMC1_CLK4 (3<<12)
+
+/*
+*************************************************************************
+* SDMA Configuration Register (SDCR) *
+*************************************************************************
+*/
+#define M821_SDCR_FREEZE (2<<13) /* Freeze on next bus cycle */
+#define M821_SDCR_RAID_5 (1<<0) /* Normal arbitration ID */
+
+/*
+*************************************************************************
+* SDMA Status Register (SDSR) *
+*************************************************************************
+*/
+#define M821_SDSR_SBER (1<<7) /* SDMA Channel bus error */
+#define M821_SDSR_DSP2 (1<<1) /* DSP Chain 2 interrupt */
+#define M821_SDSR_DSP1 (1<<0) /* DSP Chain 1 interrupt */
+
+/*
+*************************************************************************
+* Baud (sic) Rate Generators *
+*************************************************************************
+*/
+#define M821_BRG_RST (1<<17) /* Reset generator */
+#define M821_BRG_EN (1<<16) /* Enable generator */
+#define M821_BRG_EXTC_BRGCLK (0<<14) /* Source is BRGCLK */
+#define M821_BRG_EXTC_CLK2 (1<<14) /* Source is CLK2 pin */
+#define M821_BRG_EXTC_CLK6 (2<<14) /* Source is CLK6 pin */
+#define M821_BRG_ATB (1<<13) /* Autobaud */
+#define M821_BRG_115200 (21<<1) /* Assume 40 MHz clock */
+#define M821_BRG_57600 (32<<1)
+#define M821_BRG_38400 (64<<1)
+#define M821_BRG_19200 (129<<1)
+#define M821_BRG_9600 (259<<1)
+#define M821_BRG_4800 (520<<1)
+#define M821_BRG_2400 (1040<<1)
+#define M821_BRG_1200 (2082<<1)
+#define M821_BRG_600 ((259<<1) | 1)
+#define M821_BRG_300 ((520<<1) | 1)
+#define M821_BRG_150 ((1040<<1) | 1)
+#define M821_BRG_75 ((2080<<1) | 1)
+
+#define M821_TGCR_CAS4 (1<<15) /* Cascade timers 3 and 4 */
+#define M821_TGCR_CAS2 (1<<7) /* Cascade timers 1 and 2 */
+#define M821_TGCR_FRZ1 (1<<2) /* Halt timer if FREEZE asserted */
+#define M821_TGCR_FRZ2 (1<<6) /* Halt timer if FREEZE asserted */
+#define M821_TGCR_FRZ3 (1<<10) /* Halt timer if FREEZE asserted */
+#define M821_TGCR_FRZ4 (1<<14) /* Halt timer if FREEZE asserted */
+#define M821_TGCR_STP1 (1<<1) /* Stop timer */
+#define M821_TGCR_STP2 (1<<5) /* Stop timer */
+#define M821_TGCR_STP3 (1<<9) /* Stop timer */
+#define M821_TGCR_STP4 (1<<13) /* Stop timer */
+#define M821_TGCR_RST1 (1<<0) /* Enable timer */
+#define M821_TGCR_RST2 (1<<4) /* Enable timer */
+#define M821_TGCR_RST3 (1<<8) /* Enable timer */
+#define M821_TGCR_RST4 (1<<12) /* Enable timer */
+#define M821_TGCR_GM1 (1<<3) /* Gate Mode 1 for TMR1 or TMR2 */
+#define M821_TGCR_GM2 (1<<11) /* Gate Mode 2 for TMR3 or TMR4 */
+
+#define M821_TMR_PS(x) ((x)<<8) /* Timer prescaler */
+#define M821_TMR_CE_RISE (1<<6) /* Capture on rising edge */
+#define M821_TMR_CE_FALL (2<<6) /* Capture on falling edge */
+#define M821_TMR_CE_ANY (3<<6) /* Capture on any edge */
+#define M821_TMR_OM_TOGGLE (1<<5) /* Toggle TOUTx pin */
+#define M821_TMR_ORI (1<<4) /* Interrupt on reaching reference */
+#define M821_TMR_RESTART (1<<3) /* Restart timer after reference */
+#define M821_TMR_ICLK_INT (1<<1) /* Internal clock is timer source */
+#define M821_TMR_ICLK_INT16 (2<<1) /* Internal clock/16 is tmr src */
+#define M821_TMR_ICLK_TIN (3<<1) /* TIN pin is timer source */
+#define M821_TMR_TGATE (1<<0) /* TGATE controls timer */
+
+#define M821_PISCR_PIRQ(x) (1<<(15-x)) /* PIT interrupt level */
+#define M821_PISCR_PS (1<<7) /* PIT Interrupt state */
+#define M821_PISCR_PIE (1<<2) /* PIT interrupt enable */
+#define M821_PISCR_PITF (1<<1) /* Stop timer when freeze asserted */
+#define M821_PISCR_PTE (1<<0) /* PIT enable */
+
+#define M821_TBSCR_TBIRQ(x) (1<<(15-x)) /* TB interrupt level */
+#define M821_TBSCR_REFA (1<<7) /* TB matches TBREFF0 */
+#define M821_TBSCR_REFB (1<<6) /* TB matches TBREFF1 */
+#define M821_TBSCR_REFAE (1<<3) /* Enable ints for REFA */
+#define M821_TBSCR_REFBE (1<<2) /* Enable ints for REFB */
+#define M821_TBSCR_TBF (1<<1) /* TB stops on FREEZE */
+#define M821_TBSCR_TBE (1<<0) /* enable TB and decrementer */
+
+#define M821_SIMASK_IRM0 (1<<31)
+#define M821_SIMASK_LVM0 (1<<30)
+#define M821_SIMASK_IRM1 (1<<29)
+#define M821_SIMASK_LVM1 (1<<28)
+#define M821_SIMASK_IRM2 (1<<27)
+#define M821_SIMASK_LVM2 (1<<26)
+#define M821_SIMASK_IRM3 (1<<25)
+#define M821_SIMASK_LVM3 (1<<24)
+#define M821_SIMASK_IRM4 (1<<23)
+#define M821_SIMASK_LVM4 (1<<22)
+#define M821_SIMASK_IRM5 (1<<21)
+#define M821_SIMASK_LVM5 (1<<20)
+#define M821_SIMASK_IRM6 (1<<19)
+#define M821_SIMASK_LVM6 (1<<18)
+#define M821_SIMASK_IRM7 (1<<17)
+#define M821_SIMASK_LVM7 (1<<16)
+
+#define M821_SIUMCR_EARB (1<<31)
+#define M821_SIUMCR_EARP0 (0<<28)
+#define M821_SIUMCR_EARP1 (1<<28)
+#define M821_SIUMCR_EARP2 (2<<28)
+#define M821_SIUMCR_EARP3 (3<<28)
+#define M821_SIUMCR_EARP4 (4<<28)
+#define M821_SIUMCR_EARP5 (5<<28)
+#define M821_SIUMCR_EARP6 (6<<28)
+#define M821_SIUMCR_EARP7 (7<<28)
+#define M821_SIUMCR_DSHW (1<<23)
+#define M821_SIUMCR_DBGC0 (0<<21)
+#define M821_SIUMCR_DBGC1 (1<<21)
+#define M821_SIUMCR_DBGC2 (2<<21)
+#define M821_SIUMCR_DBGC3 (3<<21)
+#define M821_SIUMCR_DBPC0 (0<<19)
+#define M821_SIUMCR_DBPC1 (1<<19)
+#define M821_SIUMCR_DBPC2 (2<<19)
+#define M821_SIUMCR_DBPC3 (3<<19)
+#define M821_SIUMCR_FRC (1<<17)
+#define M821_SIUMCR_DLK (1<<16)
+#define M821_SIUMCR_PNCS (1<<15)
+#define M821_SIUMCR_OPAR (1<<14)
+#define M821_SIUMCR_DPC (1<<13)
+#define M821_SIUMCR_MPRE (1<<12)
+#define M821_SIUMCR_MLRC0 (0<<10)
+#define M821_SIUMCR_MLRC1 (1<<10)
+#define M821_SIUMCR_MLRC2 (2<<10)
+#define M821_SIUMCR_MLRC3 (3<<10)
+#define M821_SIUMCR_AEME (1<<9)
+#define M821_SIUMCR_SEME (1<<8)
+#define M821_SIUMCR_BSC (1<<7)
+#define M821_SIUMCR_GB5E (1<<6)
+#define M821_SIUMCR_B2DD (1<<5)
+#define M821_SIUMCR_B3DD (1<<4)
+/*
+*************************************************************************
+* MPC821 DUAL-PORT RAM AND REGISTERS *
+*************************************************************************
+*/
+typedef struct m821_ {
+
+ /*
+ * SIU Block
+ */
+ rtems_unsigned32 siumcr;
+ rtems_unsigned32 sypcr;
+ rtems_unsigned32 _pad70;
+ rtems_unsigned16 _pad0;
+ rtems_unsigned16 swsr;
+ rtems_unsigned32 sipend;
+ rtems_unsigned32 simask;
+ rtems_unsigned32 siel;
+ rtems_unsigned32 sivec;
+ rtems_unsigned32 tesr;
+ rtems_unsigned32 _pad1[3];
+ rtems_unsigned32 sdcr;
+ rtems_unsigned8 _pad2[0x80-0x34];
+
+ /*
+ * PCMCIA Block
+ */
+ rtems_unsigned32 pbr0;
+ rtems_unsigned32 por0;
+ rtems_unsigned32 pbr1;
+ rtems_unsigned32 por1;
+ rtems_unsigned32 pbr2;
+ rtems_unsigned32 por2;
+ rtems_unsigned32 pbr3;
+ rtems_unsigned32 por3;
+ rtems_unsigned32 pbr4;
+ rtems_unsigned32 por4;
+ rtems_unsigned32 pbr5;
+ rtems_unsigned32 por5;
+ rtems_unsigned32 pbr6;
+ rtems_unsigned32 por6;
+ rtems_unsigned32 pbr7;
+ rtems_unsigned32 por7;
+ rtems_unsigned8 _pad3[0xe0-0xc0];
+ rtems_unsigned32 pgcra;
+ rtems_unsigned32 pgcrb;
+ rtems_unsigned32 pscr;
+ rtems_unsigned32 _pad4;
+ rtems_unsigned32 pipr;
+ rtems_unsigned32 _pad5;
+ rtems_unsigned32 per;
+ rtems_unsigned32 _pad6;
+
+ /*
+ * MEMC Block
+ */
+ m821MEMCRegisters_t memc[8];
+ rtems_unsigned8 _pad7[0x164-0x140];
+ rtems_unsigned32 mar;
+ rtems_unsigned32 mcr;
+ rtems_unsigned32 _pad8;
+ rtems_unsigned32 mamr;
+ rtems_unsigned32 mbmr;
+ rtems_unsigned16 mstat;
+ rtems_unsigned16 mptpr;
+ rtems_unsigned32 mdr;
+ rtems_unsigned8 _pad9[0x200-0x180];
+
+ /*
+ * System integration timers
+ */
+ rtems_unsigned16 tbscr;
+ rtems_unsigned16 _pad10;
+ rtems_unsigned32 tbreff0;
+ rtems_unsigned32 tbreff1;
+ rtems_unsigned8 _pad11[0x220-0x20c];
+ rtems_unsigned16 rtcsc;
+ rtems_unsigned16 _pad12;
+ rtems_unsigned32 rtc;
+ rtems_unsigned32 rtsec;
+ rtems_unsigned32 rtcal;
+ rtems_unsigned32 _pad13[4];
+ rtems_unsigned16 piscr;
+ rtems_unsigned16 _pad14;
+ rtems_unsigned16 pitc;
+ rtems_unsigned16 _pad_14_1;
+ rtems_unsigned16 pitr;
+ rtems_unsigned16 _pad_14_2;
+ rtems_unsigned8 _pad15[0x280-0x24c];
+
+
+ /*
+ * Clocks and Reset
+ */
+ rtems_unsigned32 sccr;
+ rtems_unsigned32 plprcr;
+ rtems_unsigned32 rsr;
+ rtems_unsigned8 _pad16[0x300-0x28c];
+
+
+ /*
+ * System integration timers keys
+ */
+ rtems_unsigned32 tbscrk;
+ rtems_unsigned32 tbreff0k;
+ rtems_unsigned32 tbreff1k;
+ rtems_unsigned32 tbk;
+ rtems_unsigned32 _pad17[4];
+ rtems_unsigned32 rtcsk;
+ rtems_unsigned32 rtck;
+ rtems_unsigned32 rtseck;
+ rtems_unsigned32 rtcalk;
+ rtems_unsigned32 _pad18[4];
+ rtems_unsigned32 piscrk;
+ rtems_unsigned32 pitck;
+ rtems_unsigned8 _pad19[0x380-0x348];
+
+ /*
+ * Clocks and Reset Keys
+ */
+ rtems_unsigned32 sccrk;
+ rtems_unsigned32 plprck;
+ rtems_unsigned32 rsrk;
+ rtems_unsigned8 _pad20[0x400-0x38c];
+ rtems_unsigned8 _pad21[0x800-0x400];
+ rtems_unsigned8 _pad22[0x860-0x800];
+
+
+ /*
+ * I2C
+ */
+ rtems_unsigned8 i2mod;
+ rtems_unsigned8 _pad23[3];
+ rtems_unsigned8 i2add;
+ rtems_unsigned8 _pad24[3];
+ rtems_unsigned8 i2brg;
+ rtems_unsigned8 _pad25[3];
+ rtems_unsigned8 i2com;
+ rtems_unsigned8 _pad26[3];
+ rtems_unsigned8 i2cer;
+ rtems_unsigned8 _pad27[3];
+ rtems_unsigned8 i2cmr;
+ rtems_unsigned8 _pad28[0x900-0x875];
+
+ /*
+ * DMA Block
+ */
+ rtems_unsigned32 _pad29;
+ rtems_unsigned32 sdar;
+ rtems_unsigned8 sdsr;
+ rtems_unsigned8 _pad30[3];
+ rtems_unsigned8 sdmr;
+ rtems_unsigned8 _pad31[3];
+ rtems_unsigned8 idsr1;
+ rtems_unsigned8 _pad32[3];
+ rtems_unsigned8 idmr1;
+ rtems_unsigned8 _pad33[3];
+ rtems_unsigned8 idsr2;
+ rtems_unsigned8 _pad34[3];
+ rtems_unsigned8 idmr2;
+ rtems_unsigned8 _pad35[0x930-0x91d];
+
+
+
+ /*
+ * CPM Interrupt Control Block
+ */
+ rtems_unsigned16 civr;
+ rtems_unsigned8 _pad36[14];
+ rtems_unsigned32 cicr;
+ rtems_unsigned32 cipr;
+ rtems_unsigned32 cimr;
+ rtems_unsigned32 cisr;
+
+ /*
+ * I/O Port Block
+ */
+ rtems_unsigned16 padir;
+ rtems_unsigned16 papar;
+ rtems_unsigned16 paodr;
+ rtems_unsigned16 padat;
+ rtems_unsigned8 _pad37[8];
+ rtems_unsigned16 pcdir;
+ rtems_unsigned16 pcpar;
+ rtems_unsigned16 pcso;
+ rtems_unsigned16 pcdat;
+ rtems_unsigned16 pcint;
+ rtems_unsigned8 _pad39[6];
+ rtems_unsigned16 pddir;
+ rtems_unsigned16 pdpar;
+ rtems_unsigned16 _pad40;
+ rtems_unsigned16 pddat;
+ rtems_unsigned8 _pad41[8];
+
+ /*
+ * CPM Timers Block
+ */
+ rtems_unsigned16 tgcr;
+ rtems_unsigned8 _pad42[14];
+ rtems_unsigned16 tmr1;
+ rtems_unsigned16 tmr2;
+ rtems_unsigned16 trr1;
+ rtems_unsigned16 trr2;
+ rtems_unsigned16 tcr1;
+ rtems_unsigned16 tcr2;
+ rtems_unsigned16 tcn1;
+ rtems_unsigned16 tcn2;
+ rtems_unsigned16 tmr3;
+ rtems_unsigned16 tmr4;
+ rtems_unsigned16 trr3;
+ rtems_unsigned16 trr4;
+ rtems_unsigned16 tcr3;
+ rtems_unsigned16 tcr4;
+ rtems_unsigned16 tcn3;
+ rtems_unsigned16 tcn4;
+ rtems_unsigned16 ter1;
+ rtems_unsigned16 ter2;
+ rtems_unsigned16 ter3;
+ rtems_unsigned16 ter4;
+ rtems_unsigned8 _pad43[8];
+
+
+
+ /*
+ * CPM Block
+ */
+ rtems_unsigned16 cpcr;
+ rtems_unsigned16 _pad44;
+ rtems_unsigned16 rccr;
+ rtems_unsigned8 _pad45;
+ rtems_unsigned8 rmds;
+ rtems_unsigned32 rmdr;
+ rtems_unsigned16 rctr1;
+ rtems_unsigned16 rctr2;
+ rtems_unsigned16 rctr3;
+ rtems_unsigned16 rctr4;
+ rtems_unsigned16 _pad46;
+ rtems_unsigned16 rter;
+ rtems_unsigned16 _pad47;
+ rtems_unsigned16 rtmr;
+ rtems_unsigned8 _pad48[0x9f0-0x9dc];
+
+ /*
+ * BRG Block
+ */
+ rtems_unsigned32 brgc1;
+ rtems_unsigned32 brgc2;
+ rtems_unsigned32 brgc3;
+ rtems_unsigned32 brgc4;
+
+ /*
+ * SCC Block
+ */
+ m821SCCRegisters_t scc1;
+ m821SCCRegisters_t scc2;
+ rtems_unsigned8 _pad72[0xa80-0xa40];
+
+ /*
+ * SMC Block
+ */
+ m821SMCRegisters_t smc1;
+ m821SMCRegisters_t smc2;
+
+ /*
+ * SPI Block
+ */
+ rtems_unsigned16 spmode;
+ rtems_unsigned16 _pad49[2];
+ rtems_unsigned8 spie;
+ rtems_unsigned8 _pad50;
+ rtems_unsigned16 _pad51;
+ rtems_unsigned8 spim;
+ rtems_unsigned8 _pad52[2];
+ rtems_unsigned8 spcom;
+ rtems_unsigned16 _pad53[2];
+
+ /*
+ * PIP Block
+ */
+ rtems_unsigned16 pipc;
+ rtems_unsigned16 _pad54;
+ rtems_unsigned16 ptpr;
+ rtems_unsigned32 pbdir;
+ rtems_unsigned32 pbpar;
+ rtems_unsigned16 _pad55;
+ rtems_unsigned16 pbodr;
+ rtems_unsigned32 pbdat;
+ rtems_unsigned32 _pad56[6];
+
+ /*
+ * SI Block
+ */
+ rtems_unsigned32 simode;
+ rtems_unsigned8 sigmr;
+ rtems_unsigned8 _pad57;
+ rtems_unsigned8 sistr;
+ rtems_unsigned8 sicmr;
+ rtems_unsigned32 _pad58;
+ rtems_unsigned32 sicr;
+ rtems_unsigned16 sirp[2];
+ rtems_unsigned32 _pad59[3];
+ rtems_unsigned8 _pad60[0xc00-0xb00];
+ rtems_unsigned8 siram[512];
+ rtems_unsigned8 lcdram[512];
+
+ rtems_unsigned8 _pad62[0x2000-0x1000];
+ /*
+ * Dual-port RAM
+ */
+ rtems_unsigned8 dpram0[0x200]; /* BD/DATA/UCODE */
+ rtems_unsigned8 dpram1[0x200]; /* BD/DATA/UCODE */
+ rtems_unsigned8 dpram2[0x400]; /* BD/DATA/UCODE */
+ rtems_unsigned8 dpram3[0x600]; /* BD/DATA*/
+ rtems_unsigned8 dpram4[0x200]; /* BD/DATA/UCODE */
+ rtems_unsigned8 _pad63[0x3c00-0x3000];
+
+ /* When using SCC1 for ethernet, we lose the use of I2C since
+ * their parameters would overlap. Motorola has a microcode
+ * patch to move parameters around so that both can be used
+ * together. It is available on their web site somewhere
+ * under http://www.mot.com/mpc821. If ethernet is used on
+ * one (or more) of the other SCCs, then other CPM features
+ * will be unavailable:
+ * SCC2 -> lose SPI
+ * However, Ethernet only works on SCC1 on the 821.
+ */
+ m821SCCENparms_t scc1p;
+ rtems_unsigned8 _rsv1[0xCB0-0xC00-sizeof(m821SCCENparms_t)];
+ m821MiscParms_t miscp;
+ rtems_unsigned8 _rsv2[0xcc0-0xCB0-sizeof(m821MiscParms_t)];
+ m821IDMAparms_t idma1p;
+ rtems_unsigned8 _rsv3[0xd00-0xcc0-sizeof(m821IDMAparms_t)];
+
+ m821SCCparms_t scc2p;
+ rtems_unsigned8 _rsv4[0xD80-0xD00-sizeof(m821SCCparms_t)];
+ m821SPIparms_t spip;
+ rtems_unsigned8 _rsv5[0xDB0-0xD80-sizeof(m821SPIparms_t)];
+ m821TimerParms_t tmp;
+ rtems_unsigned8 _rsv6[0xDC0-0xDB0-sizeof(m821TimerParms_t)];
+ m821IDMAparms_t idma2p;
+ rtems_unsigned8 _rsv7[0xE00-0xDC0-sizeof(m821IDMAparms_t)];
+
+ m821SCCparms_t scc3p; /* Not used */
+ rtems_unsigned8 _rsv8[0xE80-0xE00-sizeof(m821SCCparms_t)];
+ m821SMCparms_t smc1p;
+ rtems_unsigned8 _rsv9[0xEC0-0xE80-sizeof(m821SMCparms_t)];
+ m821DSPparms_t dsp1p;
+ rtems_unsigned8 _rsv10[0xF00-0xEC0-sizeof(m821DSPparms_t)];
+
+ m821SCCparms_t scc4p; /* Not used */
+ rtems_unsigned8 _rsv11[0xF80-0xF00-sizeof(m821SCCparms_t)];
+ m821SMCparms_t smc2p;
+ rtems_unsigned8 _rsv12[0xFC0-0xF80-sizeof(m821SMCparms_t)];
+ m821DSPparms_t dsp2p;
+ rtems_unsigned8 _rsv13[0x1000-0xFC0-sizeof(m821DSPparms_t)];
+} m821_t;
+
+extern volatile m821_t m821;
+#endif /* ASM */
+
+#endif /* __MPC821_h */