| /* -*- mode: asm -*- |
| ** |
| ** head.S -- This file contains the initial boot code for the |
| ** Linux/68k kernel. |
| ** |
| ** Copyright 1993 by Hamish Macdonald |
| ** |
| ** 68040 fixes by Michael Rausch |
| ** 68060 fixes by Roman Hodek |
| ** MMU cleanup by Randy Thelen |
| ** Final MMU cleanup by Roman Zippel |
| ** |
| ** Atari support by Andreas Schwab, using ideas of Robert de Vries |
| ** and Bjoern Brauel |
| ** VME Support by Richard Hirst |
| ** |
| ** 94/11/14 Andreas Schwab: put kernel at PAGESIZE |
| ** 94/11/18 Andreas Schwab: remove identity mapping of STRAM for Atari |
| ** ++ Bjoern & Roman: ATARI-68040 support for the Medusa |
| ** 95/11/18 Richard Hirst: Added MVME166 support |
| ** 96/04/26 Guenther Kelleter: fixed identity mapping for Falcon with |
| ** Magnum- and FX-alternate ram |
| ** 98/04/25 Phil Blundell: added HP300 support |
| ** 1998/08/30 David Kilzer: Added support for font_desc structures |
| ** for linux-2.1.115 |
| ** 9/02/11 Richard Zidlicky: added Q40 support (initial vesion 99/01/01) |
| ** 2004/05/13 Kars de Jong: Finalised HP300 support |
| ** |
| ** This file is subject to the terms and conditions of the GNU General Public |
| ** License. See the file README.legal in the main directory of this archive |
| ** for more details. |
| ** |
| */ |
| |
| /* |
| * Linux startup code. |
| * |
| * At this point, the boot loader has: |
| * Disabled interrupts |
| * Disabled caches |
| * Put us in supervisor state. |
| * |
| * The kernel setup code takes the following steps: |
| * . Raise interrupt level |
| * . Set up initial kernel memory mapping. |
| * . This sets up a mapping of the 4M of memory the kernel is located in. |
| * . It also does a mapping of any initial machine specific areas. |
| * . Enable the MMU |
| * . Enable cache memories |
| * . Jump to kernel startup |
| * |
| * Much of the file restructuring was to accomplish: |
| * 1) Remove register dependency through-out the file. |
| * 2) Increase use of subroutines to perform functions |
| * 3) Increase readability of the code |
| * |
| * Of course, readability is a subjective issue, so it will never be |
| * argued that that goal was accomplished. It was merely a goal. |
| * A key way to help make code more readable is to give good |
| * documentation. So, the first thing you will find is exaustive |
| * write-ups on the structure of the file, and the features of the |
| * functional subroutines. |
| * |
| * General Structure: |
| * ------------------ |
| * Without a doubt the single largest chunk of head.S is spent |
| * mapping the kernel and I/O physical space into the logical range |
| * for the kernel. |
| * There are new subroutines and data structures to make MMU |
| * support cleaner and easier to understand. |
| * First, you will find a routine call "mmu_map" which maps |
| * a logical to a physical region for some length given a cache |
| * type on behalf of the caller. This routine makes writing the |
| * actual per-machine specific code very simple. |
| * A central part of the code, but not a subroutine in itself, |
| * is the mmu_init code which is broken down into mapping the kernel |
| * (the same for all machines) and mapping machine-specific I/O |
| * regions. |
| * Also, there will be a description of engaging the MMU and |
| * caches. |
| * You will notice that there is a chunk of code which |
| * can emit the entire MMU mapping of the machine. This is present |
| * only in debug modes and can be very helpful. |
| * Further, there is a new console driver in head.S that is |
| * also only engaged in debug mode. Currently, it's only supported |
| * on the Macintosh class of machines. However, it is hoped that |
| * others will plug-in support for specific machines. |
| * |
| * ###################################################################### |
| * |
| * mmu_map |
| * ------- |
| * mmu_map was written for two key reasons. First, it was clear |
| * that it was very difficult to read the previous code for mapping |
| * regions of memory. Second, the Macintosh required such extensive |
| * memory allocations that it didn't make sense to propagate the |
| * existing code any further. |
| * mmu_map requires some parameters: |
| * |
| * mmu_map (logical, physical, length, cache_type) |
| * |
| * While this essentially describes the function in the abstract, you'll |
| * find more indepth description of other parameters at the implementation site. |
| * |
| * mmu_get_root_table_entry |
| * ------------------------ |
| * mmu_get_ptr_table_entry |
| * ----------------------- |
| * mmu_get_page_table_entry |
| * ------------------------ |
| * |
| * These routines are used by other mmu routines to get a pointer into |
| * a table, if necessary a new table is allocated. These routines are working |
| * basically like pmd_alloc() and pte_alloc() in <asm/pgtable.h>. The root |
| * table needs of course only to be allocated once in mmu_get_root_table_entry, |
| * so that here also some mmu specific initialization is done. The second page |
| * at the start of the kernel (the first page is unmapped later) is used for |
| * the kernel_pg_dir. It must be at a position known at link time (as it's used |
| * to initialize the init task struct) and since it needs special cache |
| * settings, it's the easiest to use this page, the rest of the page is used |
| * for further pointer tables. |
| * mmu_get_page_table_entry allocates always a whole page for page tables, this |
| * means 1024 pages and so 4MB of memory can be mapped. It doesn't make sense |
| * to manage page tables in smaller pieces as nearly all mappings have that |
| * size. |
| * |
| * ###################################################################### |
| * |
| * |
| * ###################################################################### |
| * |
| * mmu_engage |
| * ---------- |
| * Thanks to a small helping routine enabling the mmu got quite simple |
| * and there is only one way left. mmu_engage makes a complete a new mapping |
| * that only includes the absolute necessary to be able to jump to the final |
| * postion and to restore the original mapping. |
| * As this code doesn't need a transparent translation register anymore this |
| * means all registers are free to be used by machines that needs them for |
| * other purposes. |
| * |
| * ###################################################################### |
| * |
| * mmu_print |
| * --------- |
| * This algorithm will print out the page tables of the system as |
| * appropriate for an 030 or an 040. This is useful for debugging purposes |
| * and as such is enclosed in #ifdef MMU_PRINT/#endif clauses. |
| * |
| * ###################################################################### |
| * |
| * console_init |
| * ------------ |
| * The console is also able to be turned off. The console in head.S |
| * is specifically for debugging and can be very useful. It is surrounded by |
| * #ifdef CONSOLE/#endif clauses so it doesn't have to ship in known-good |
| * kernels. It's basic algorithm is to determine the size of the screen |
| * (in height/width and bit depth) and then use that information for |
| * displaying an 8x8 font or an 8x16 (widthxheight). I prefer the 8x8 for |
| * debugging so I can see more good data. But it was trivial to add support |
| * for both fonts, so I included it. |
| * Also, the algorithm for plotting pixels is abstracted so that in |
| * theory other platforms could add support for different kinds of frame |
| * buffers. This could be very useful. |
| * |
| * console_put_penguin |
| * ------------------- |
| * An important part of any Linux bring up is the penguin and there's |
| * nothing like getting the Penguin on the screen! This algorithm will work |
| * on any machine for which there is a console_plot_pixel. |
| * |
| * console_scroll |
| * -------------- |
| * My hope is that the scroll algorithm does the right thing on the |
| * various platforms, but it wouldn't be hard to add the test conditions |
| * and new code if it doesn't. |
| * |
| * console_putc |
| * ------------- |
| * |
| * ###################################################################### |
| * |
| * Register usage has greatly simplified within head.S. Every subroutine |
| * saves and restores all registers that it modifies (except it returns a |
| * value in there of course). So the only register that needs to be initialized |
| * is the stack pointer. |
| * All other init code and data is now placed in the init section, so it will |
| * be automatically freed at the end of the kernel initialization. |
| * |
| * ###################################################################### |
| * |
| * options |
| * ------- |
| * There are many options available in a build of this file. I've |
| * taken the time to describe them here to save you the time of searching |
| * for them and trying to understand what they mean. |
| * |
| * CONFIG_xxx: These are the obvious machine configuration defines created |
| * during configuration. These are defined in include/linux/autoconf.h. |
| * |
| * CONSOLE: There is support for head.S console in this file. This |
| * console can talk to a Mac frame buffer, but could easily be extrapolated |
| * to extend it to support other platforms. |
| * |
| * TEST_MMU: This is a test harness for running on any given machine but |
| * getting an MMU dump for another class of machine. The classes of machines |
| * that can be tested are any of the makes (Atari, Amiga, Mac, VME, etc.) |
| * and any of the models (030, 040, 060, etc.). |
| * |
| * NOTE: TEST_MMU is NOT permanent! It is scheduled to be removed |
| * When head.S boots on Atari, Amiga, Macintosh, and VME |
| * machines. At that point the underlying logic will be |
| * believed to be solid enough to be trusted, and TEST_MMU |
| * can be dropped. Do note that that will clean up the |
| * head.S code significantly as large blocks of #if/#else |
| * clauses can be removed. |
| * |
| * MMU_NOCACHE_KERNEL: On the Macintosh platform there was an inquiry into |
| * determing why devices don't appear to work. A test case was to remove |
| * the cacheability of the kernel bits. |
| * |
| * MMU_PRINT: There is a routine built into head.S that can display the |
| * MMU data structures. It outputs its result through the serial_putc |
| * interface. So where ever that winds up driving data, that's where the |
| * mmu struct will appear. On the Macintosh that's typically the console. |
| * |
| * SERIAL_DEBUG: There are a series of putc() macro statements |
| * scattered through out the code to give progress of status to the |
| * person sitting at the console. This constant determines whether those |
| * are used. |
| * |
| * DEBUG: This is the standard DEBUG flag that can be set for building |
| * the kernel. It has the effect adding additional tests into |
| * the code. |
| * |
| * FONT_6x11: |
| * FONT_8x8: |
| * FONT_8x16: |
| * In theory these could be determined at run time or handed |
| * over by the booter. But, let's be real, it's a fine hard |
| * coded value. (But, you will notice the code is run-time |
| * flexible!) A pointer to the font's struct font_desc |
| * is kept locally in Lconsole_font. It is used to determine |
| * font size information dynamically. |
| * |
| * Atari constants: |
| * USE_PRINTER: Use the printer port for serial debug. |
| * USE_SCC_B: Use the SCC port A (Serial2) for serial debug. |
| * USE_SCC_A: Use the SCC port B (Modem2) for serial debug. |
| * USE_MFP: Use the ST-MFP port (Modem1) for serial debug. |
| * |
| * Macintosh constants: |
| * MAC_SERIAL_DEBUG: Turns on serial debug output for the Macintosh. |
| * MAC_USE_SCC_A: Use the SCC port A (modem) for serial debug. |
| * MAC_USE_SCC_B: Use the SCC port B (printer) for serial debug (default). |
| */ |
| |
| #include <linux/linkage.h> |
| #include <linux/init.h> |
| #include <asm/bootinfo.h> |
| #include <asm/setup.h> |
| #include <asm/entry.h> |
| #include <asm/pgtable.h> |
| #include <asm/page.h> |
| #include <asm/asm-offsets.h> |
| |
| #ifdef CONFIG_MAC |
| |
| #include <asm/machw.h> |
| |
| /* |
| * Macintosh console support |
| */ |
| |
| #ifdef CONFIG_FRAMEBUFFER_CONSOLE |
| #define CONSOLE |
| #define CONSOLE_PENGUIN |
| #endif |
| |
| /* |
| * Macintosh serial debug support; outputs boot info to the printer |
| * and/or modem serial ports |
| */ |
| #undef MAC_SERIAL_DEBUG |
| |
| /* |
| * Macintosh serial debug port selection; define one or both; |
| * requires MAC_SERIAL_DEBUG to be defined |
| */ |
| #define MAC_USE_SCC_A /* Macintosh modem serial port */ |
| #define MAC_USE_SCC_B /* Macintosh printer serial port */ |
| |
| #endif /* CONFIG_MAC */ |
| |
| #undef MMU_PRINT |
| #undef MMU_NOCACHE_KERNEL |
| #define SERIAL_DEBUG |
| #undef DEBUG |
| |
| /* |
| * For the head.S console, there are three supported fonts, 6x11, 8x16 and 8x8. |
| * The 8x8 font is harder to read but fits more on the screen. |
| */ |
| #define FONT_8x8 /* default */ |
| /* #define FONT_8x16 */ /* 2nd choice */ |
| /* #define FONT_6x11 */ /* 3rd choice */ |
| |
| .globl kernel_pg_dir |
| .globl availmem |
| .globl m68k_pgtable_cachemode |
| .globl m68k_supervisor_cachemode |
| #ifdef CONFIG_MVME16x |
| .globl mvme_bdid |
| #endif |
| #ifdef CONFIG_Q40 |
| .globl q40_mem_cptr |
| #endif |
| |
| CPUTYPE_040 = 1 /* indicates an 040 */ |
| CPUTYPE_060 = 2 /* indicates an 060 */ |
| CPUTYPE_0460 = 3 /* if either above are set, this is set */ |
| CPUTYPE_020 = 4 /* indicates an 020 */ |
| |
| /* Translation control register */ |
| TC_ENABLE = 0x8000 |
| TC_PAGE8K = 0x4000 |
| TC_PAGE4K = 0x0000 |
| |
| /* Transparent translation registers */ |
| TTR_ENABLE = 0x8000 /* enable transparent translation */ |
| TTR_ANYMODE = 0x4000 /* user and kernel mode access */ |
| TTR_KERNELMODE = 0x2000 /* only kernel mode access */ |
| TTR_USERMODE = 0x0000 /* only user mode access */ |
| TTR_CI = 0x0400 /* inhibit cache */ |
| TTR_RW = 0x0200 /* read/write mode */ |
| TTR_RWM = 0x0100 /* read/write mask */ |
| TTR_FCB2 = 0x0040 /* function code base bit 2 */ |
| TTR_FCB1 = 0x0020 /* function code base bit 1 */ |
| TTR_FCB0 = 0x0010 /* function code base bit 0 */ |
| TTR_FCM2 = 0x0004 /* function code mask bit 2 */ |
| TTR_FCM1 = 0x0002 /* function code mask bit 1 */ |
| TTR_FCM0 = 0x0001 /* function code mask bit 0 */ |
| |
| /* Cache Control registers */ |
| CC6_ENABLE_D = 0x80000000 /* enable data cache (680[46]0) */ |
| CC6_FREEZE_D = 0x40000000 /* freeze data cache (68060) */ |
| CC6_ENABLE_SB = 0x20000000 /* enable store buffer (68060) */ |
| CC6_PUSH_DPI = 0x10000000 /* disable CPUSH invalidation (68060) */ |
| CC6_HALF_D = 0x08000000 /* half-cache mode for data cache (68060) */ |
| CC6_ENABLE_B = 0x00800000 /* enable branch cache (68060) */ |
| CC6_CLRA_B = 0x00400000 /* clear all entries in branch cache (68060) */ |
| CC6_CLRU_B = 0x00200000 /* clear user entries in branch cache (68060) */ |
| CC6_ENABLE_I = 0x00008000 /* enable instruction cache (680[46]0) */ |
| CC6_FREEZE_I = 0x00004000 /* freeze instruction cache (68060) */ |
| CC6_HALF_I = 0x00002000 /* half-cache mode for instruction cache (68060) */ |
| CC3_ALLOC_WRITE = 0x00002000 /* write allocate mode(68030) */ |
| CC3_ENABLE_DB = 0x00001000 /* enable data burst (68030) */ |
| CC3_CLR_D = 0x00000800 /* clear data cache (68030) */ |
| CC3_CLRE_D = 0x00000400 /* clear entry in data cache (68030) */ |
| CC3_FREEZE_D = 0x00000200 /* freeze data cache (68030) */ |
| CC3_ENABLE_D = 0x00000100 /* enable data cache (68030) */ |
| CC3_ENABLE_IB = 0x00000010 /* enable instruction burst (68030) */ |
| CC3_CLR_I = 0x00000008 /* clear instruction cache (68030) */ |
| CC3_CLRE_I = 0x00000004 /* clear entry in instruction cache (68030) */ |
| CC3_FREEZE_I = 0x00000002 /* freeze instruction cache (68030) */ |
| CC3_ENABLE_I = 0x00000001 /* enable instruction cache (68030) */ |
| |
| /* Miscellaneous definitions */ |
| PAGESIZE = 4096 |
| PAGESHIFT = 12 |
| |
| ROOT_TABLE_SIZE = 128 |
| PTR_TABLE_SIZE = 128 |
| PAGE_TABLE_SIZE = 64 |
| ROOT_INDEX_SHIFT = 25 |
| PTR_INDEX_SHIFT = 18 |
| PAGE_INDEX_SHIFT = 12 |
| |
| #ifdef DEBUG |
| /* When debugging use readable names for labels */ |
| #ifdef __STDC__ |
| #define L(name) .head.S.##name |
| #else |
| #define L(name) .head.S./**/name |
| #endif |
| #else |
| #ifdef __STDC__ |
| #define L(name) .L##name |
| #else |
| #define L(name) .L/**/name |
| #endif |
| #endif |
| |
| /* The __INITDATA stuff is a no-op when ftrace or kgdb are turned on */ |
| #ifndef __INITDATA |
| #define __INITDATA .data |
| #define __FINIT .previous |
| #endif |
| |
| /* Several macros to make the writing of subroutines easier: |
| * - func_start marks the beginning of the routine which setups the frame |
| * register and saves the registers, it also defines another macro |
| * to automatically restore the registers again. |
| * - func_return marks the end of the routine and simply calls the prepared |
| * macro to restore registers and jump back to the caller. |
| * - func_define generates another macro to automatically put arguments |
| * onto the stack call the subroutine and cleanup the stack again. |
| */ |
| |
| /* Within subroutines these macros can be used to access the arguments |
| * on the stack. With STACK some allocated memory on the stack can be |
| * accessed and ARG0 points to the return address (used by mmu_engage). |
| */ |
| #define STACK %a6@(stackstart) |
| #define ARG0 %a6@(4) |
| #define ARG1 %a6@(8) |
| #define ARG2 %a6@(12) |
| #define ARG3 %a6@(16) |
| #define ARG4 %a6@(20) |
| |
| .macro func_start name,saveregs,stack=0 |
| L(\name): |
| linkw %a6,#-\stack |
| moveml \saveregs,%sp@- |
| .set stackstart,-\stack |
| |
| .macro func_return_\name |
| moveml %sp@+,\saveregs |
| unlk %a6 |
| rts |
| .endm |
| .endm |
| |
| .macro func_return name |
| func_return_\name |
| .endm |
| |
| .macro func_call name |
| jbsr L(\name) |
| .endm |
| |
| .macro move_stack nr,arg1,arg2,arg3,arg4 |
| .if \nr |
| move_stack "(\nr-1)",\arg2,\arg3,\arg4 |
| movel \arg1,%sp@- |
| .endif |
| .endm |
| |
| .macro func_define name,nr=0 |
| .macro \name arg1,arg2,arg3,arg4 |
| move_stack \nr,\arg1,\arg2,\arg3,\arg4 |
| func_call \name |
| .if \nr |
| lea %sp@(\nr*4),%sp |
| .endif |
| .endm |
| .endm |
| |
| func_define mmu_map,4 |
| func_define mmu_map_tt,4 |
| func_define mmu_fixup_page_mmu_cache,1 |
| func_define mmu_temp_map,2 |
| func_define mmu_engage |
| func_define mmu_get_root_table_entry,1 |
| func_define mmu_get_ptr_table_entry,2 |
| func_define mmu_get_page_table_entry,2 |
| func_define mmu_print |
| func_define get_new_page |
| #if defined(CONFIG_HP300) || defined(CONFIG_APOLLO) |
| func_define set_leds |
| #endif |
| |
| .macro mmu_map_eq arg1,arg2,arg3 |
| mmu_map \arg1,\arg1,\arg2,\arg3 |
| .endm |
| |
| .macro get_bi_record record |
| pea \record |
| func_call get_bi_record |
| addql #4,%sp |
| .endm |
| |
| func_define serial_putc,1 |
| func_define console_putc,1 |
| |
| func_define console_init |
| func_define console_put_stats |
| func_define console_put_penguin |
| func_define console_plot_pixel,3 |
| func_define console_scroll |
| |
| .macro putc ch |
| #if defined(CONSOLE) || defined(SERIAL_DEBUG) |
| pea \ch |
| #endif |
| #ifdef CONSOLE |
| func_call console_putc |
| #endif |
| #ifdef SERIAL_DEBUG |
| func_call serial_putc |
| #endif |
| #if defined(CONSOLE) || defined(SERIAL_DEBUG) |
| addql #4,%sp |
| #endif |
| .endm |
| |
| .macro dputc ch |
| #ifdef DEBUG |
| putc \ch |
| #endif |
| .endm |
| |
| func_define putn,1 |
| |
| .macro dputn nr |
| #ifdef DEBUG |
| putn \nr |
| #endif |
| .endm |
| |
| .macro puts string |
| #if defined(CONSOLE) || defined(SERIAL_DEBUG) |
| __INITDATA |
| .Lstr\@: |
| .string "\string" |
| __FINIT |
| pea %pc@(.Lstr\@) |
| func_call puts |
| addql #4,%sp |
| #endif |
| .endm |
| |
| .macro dputs string |
| #ifdef DEBUG |
| puts "\string" |
| #endif |
| .endm |
| |
| #define is_not_amiga(lab) cmpl &MACH_AMIGA,%pc@(m68k_machtype); jne lab |
| #define is_not_atari(lab) cmpl &MACH_ATARI,%pc@(m68k_machtype); jne lab |
| #define is_not_mac(lab) cmpl &MACH_MAC,%pc@(m68k_machtype); jne lab |
| #define is_not_mvme147(lab) cmpl &MACH_MVME147,%pc@(m68k_machtype); jne lab |
| #define is_not_mvme16x(lab) cmpl &MACH_MVME16x,%pc@(m68k_machtype); jne lab |
| #define is_not_bvme6000(lab) cmpl &MACH_BVME6000,%pc@(m68k_machtype); jne lab |
| #define is_mvme147(lab) cmpl &MACH_MVME147,%pc@(m68k_machtype); jeq lab |
| #define is_mvme16x(lab) cmpl &MACH_MVME16x,%pc@(m68k_machtype); jeq lab |
| #define is_bvme6000(lab) cmpl &MACH_BVME6000,%pc@(m68k_machtype); jeq lab |
| #define is_not_hp300(lab) cmpl &MACH_HP300,%pc@(m68k_machtype); jne lab |
| #define is_not_apollo(lab) cmpl &MACH_APOLLO,%pc@(m68k_machtype); jne lab |
| #define is_not_q40(lab) cmpl &MACH_Q40,%pc@(m68k_machtype); jne lab |
| #define is_not_sun3x(lab) cmpl &MACH_SUN3X,%pc@(m68k_machtype); jne lab |
| |
| #define hasnt_leds(lab) cmpl &MACH_HP300,%pc@(m68k_machtype); \ |
| jeq 42f; \ |
| cmpl &MACH_APOLLO,%pc@(m68k_machtype); \ |
| jne lab ;\ |
| 42:\ |
| |
| #define is_040_or_060(lab) btst &CPUTYPE_0460,%pc@(L(cputype)+3); jne lab |
| #define is_not_040_or_060(lab) btst &CPUTYPE_0460,%pc@(L(cputype)+3); jeq lab |
| #define is_040(lab) btst &CPUTYPE_040,%pc@(L(cputype)+3); jne lab |
| #define is_060(lab) btst &CPUTYPE_060,%pc@(L(cputype)+3); jne lab |
| #define is_not_060(lab) btst &CPUTYPE_060,%pc@(L(cputype)+3); jeq lab |
| #define is_020(lab) btst &CPUTYPE_020,%pc@(L(cputype)+3); jne lab |
| #define is_not_020(lab) btst &CPUTYPE_020,%pc@(L(cputype)+3); jeq lab |
| |
| /* On the HP300 we use the on-board LEDs for debug output before |
| the console is running. Writing a 1 bit turns the corresponding LED |
| _off_ - on the 340 bit 7 is towards the back panel of the machine. */ |
| .macro leds mask |
| #if defined(CONFIG_HP300) || defined(CONFIG_APOLLO) |
| hasnt_leds(.Lled\@) |
| pea \mask |
| func_call set_leds |
| addql #4,%sp |
| .Lled\@: |
| #endif |
| .endm |
| |
| __HEAD |
| ENTRY(_stext) |
| /* |
| * Version numbers of the bootinfo interface |
| * The area from _stext to _start will later be used as kernel pointer table |
| */ |
| bras 1f /* Jump over bootinfo version numbers */ |
| |
| .long BOOTINFOV_MAGIC |
| .long MACH_AMIGA, AMIGA_BOOTI_VERSION |
| .long MACH_ATARI, ATARI_BOOTI_VERSION |
| .long MACH_MVME147, MVME147_BOOTI_VERSION |
| .long MACH_MVME16x, MVME16x_BOOTI_VERSION |
| .long MACH_BVME6000, BVME6000_BOOTI_VERSION |
| .long MACH_MAC, MAC_BOOTI_VERSION |
| .long MACH_Q40, Q40_BOOTI_VERSION |
| .long MACH_HP300, HP300_BOOTI_VERSION |
| .long 0 |
| 1: jra __start |
| |
| .equ kernel_pg_dir,_stext |
| |
| .equ .,_stext+PAGESIZE |
| |
| ENTRY(_start) |
| jra __start |
| __INIT |
| ENTRY(__start) |
| /* |
| * Setup initial stack pointer |
| */ |
| lea %pc@(_stext),%sp |
| |
| /* |
| * Record the CPU and machine type. |
| */ |
| get_bi_record BI_MACHTYPE |
| lea %pc@(m68k_machtype),%a1 |
| movel %a0@,%a1@ |
| |
| get_bi_record BI_FPUTYPE |
| lea %pc@(m68k_fputype),%a1 |
| movel %a0@,%a1@ |
| |
| get_bi_record BI_MMUTYPE |
| lea %pc@(m68k_mmutype),%a1 |
| movel %a0@,%a1@ |
| |
| get_bi_record BI_CPUTYPE |
| lea %pc@(m68k_cputype),%a1 |
| movel %a0@,%a1@ |
| |
| leds 0x1 |
| |
| #ifdef CONFIG_MAC |
| /* |
| * For Macintosh, we need to determine the display parameters early (at least |
| * while debugging it). |
| */ |
| |
| is_not_mac(L(test_notmac)) |
| |
| get_bi_record BI_MAC_VADDR |
| lea %pc@(L(mac_videobase)),%a1 |
| movel %a0@,%a1@ |
| |
| get_bi_record BI_MAC_VDEPTH |
| lea %pc@(L(mac_videodepth)),%a1 |
| movel %a0@,%a1@ |
| |
| get_bi_record BI_MAC_VDIM |
| lea %pc@(L(mac_dimensions)),%a1 |
| movel %a0@,%a1@ |
| |
| get_bi_record BI_MAC_VROW |
| lea %pc@(L(mac_rowbytes)),%a1 |
| movel %a0@,%a1@ |
| |
| #ifdef MAC_SERIAL_DEBUG |
| get_bi_record BI_MAC_SCCBASE |
| lea %pc@(L(mac_sccbase)),%a1 |
| movel %a0@,%a1@ |
| #endif /* MAC_SERIAL_DEBUG */ |
| |
| #if 0 |
| /* |
| * Clear the screen |
| */ |
| lea %pc@(L(mac_videobase)),%a0 |
| movel %a0@,%a1 |
| lea %pc@(L(mac_dimensions)),%a0 |
| movel %a0@,%d1 |
| swap %d1 /* #rows is high bytes */ |
| andl #0xFFFF,%d1 /* rows */ |
| subl #10,%d1 |
| lea %pc@(L(mac_rowbytes)),%a0 |
| loopy2: |
| movel %a0@,%d0 |
| subql #1,%d0 |
| loopx2: |
| moveb #0x55, %a1@+ |
| dbra %d0,loopx2 |
| dbra %d1,loopy2 |
| #endif |
| |
| L(test_notmac): |
| #endif /* CONFIG_MAC */ |
| |
| |
| /* |
| * There are ultimately two pieces of information we want for all kinds of |
| * processors CpuType and CacheBits. The CPUTYPE was passed in from booter |
| * and is converted here from a booter type definition to a separate bit |
| * number which allows for the standard is_0x0 macro tests. |
| */ |
| movel %pc@(m68k_cputype),%d0 |
| /* |
| * Assume it's an 030 |
| */ |
| clrl %d1 |
| |
| /* |
| * Test the BootInfo cputype for 060 |
| */ |
| btst #CPUB_68060,%d0 |
| jeq 1f |
| bset #CPUTYPE_060,%d1 |
| bset #CPUTYPE_0460,%d1 |
| jra 3f |
| 1: |
| /* |
| * Test the BootInfo cputype for 040 |
| */ |
| btst #CPUB_68040,%d0 |
| jeq 2f |
| bset #CPUTYPE_040,%d1 |
| bset #CPUTYPE_0460,%d1 |
| jra 3f |
| 2: |
| /* |
| * Test the BootInfo cputype for 020 |
| */ |
| btst #CPUB_68020,%d0 |
| jeq 3f |
| bset #CPUTYPE_020,%d1 |
| jra 3f |
| 3: |
| /* |
| * Record the cpu type |
| */ |
| lea %pc@(L(cputype)),%a0 |
| movel %d1,%a0@ |
| |
| /* |
| * NOTE: |
| * |
| * Now the macros are valid: |
| * is_040_or_060 |
| * is_not_040_or_060 |
| * is_040 |
| * is_060 |
| * is_not_060 |
| */ |
| |
| /* |
| * Determine the cache mode for pages holding MMU tables |
| * and for supervisor mode, unused for '020 and '030 |
| */ |
| clrl %d0 |
| clrl %d1 |
| |
| is_not_040_or_060(L(save_cachetype)) |
| |
| /* |
| * '040 or '060 |
| * d1 := cacheable write-through |
| * NOTE: The 68040 manual strongly recommends non-cached for MMU tables, |
| * but we have been using write-through since at least 2.0.29 so I |
| * guess it is OK. |
| */ |
| #ifdef CONFIG_060_WRITETHROUGH |
| /* |
| * If this is a 68060 board using drivers with cache coherency |
| * problems, then supervisor memory accesses need to be write-through |
| * also; otherwise, we want copyback. |
| */ |
| |
| is_not_060(1f) |
| movel #_PAGE_CACHE040W,%d0 |
| jra L(save_cachetype) |
| #endif /* CONFIG_060_WRITETHROUGH */ |
| 1: |
| movew #_PAGE_CACHE040,%d0 |
| |
| movel #_PAGE_CACHE040W,%d1 |
| |
| L(save_cachetype): |
| /* Save cache mode for supervisor mode and page tables |
| */ |
| lea %pc@(m68k_supervisor_cachemode),%a0 |
| movel %d0,%a0@ |
| lea %pc@(m68k_pgtable_cachemode),%a0 |
| movel %d1,%a0@ |
| |
| /* |
| * raise interrupt level |
| */ |
| movew #0x2700,%sr |
| |
| /* |
| If running on an Atari, determine the I/O base of the |
| serial port and test if we are running on a Medusa or Hades. |
| This test is necessary here, because on the Hades the serial |
| port is only accessible in the high I/O memory area. |
| |
| The test whether it is a Medusa is done by writing to the byte at |
| phys. 0x0. This should result in a bus error on all other machines. |
| |
| ...should, but doesn't. The Afterburner040 for the Falcon has the |
| same behaviour (0x0..0x7 are no ROM shadow). So we have to do |
| another test to distinguish Medusa and AB040. This is a |
| read attempt for 0x00ff82fe phys. that should bus error on a Falcon |
| (+AB040), but is in the range where the Medusa always asserts DTACK. |
| |
| The test for the Hades is done by reading address 0xb0000000. This |
| should give a bus error on the Medusa. |
| */ |
| |
| #ifdef CONFIG_ATARI |
| is_not_atari(L(notypetest)) |
| |
| /* get special machine type (Medusa/Hades/AB40) */ |
| moveq #0,%d3 /* default if tag doesn't exist */ |
| get_bi_record BI_ATARI_MCH_TYPE |
| tstl %d0 |
| jbmi 1f |
| movel %a0@,%d3 |
| lea %pc@(atari_mch_type),%a0 |
| movel %d3,%a0@ |
| 1: |
| /* On the Hades, the iobase must be set up before opening the |
| * serial port. There are no I/O regs at 0x00ffxxxx at all. */ |
| moveq #0,%d0 |
| cmpl #ATARI_MACH_HADES,%d3 |
| jbne 1f |
| movel #0xff000000,%d0 /* Hades I/O base addr: 0xff000000 */ |
| 1: lea %pc@(L(iobase)),%a0 |
| movel %d0,%a0@ |
| |
| L(notypetest): |
| #endif |
| |
| #ifdef CONFIG_VME |
| is_mvme147(L(getvmetype)) |
| is_bvme6000(L(getvmetype)) |
| is_not_mvme16x(L(gvtdone)) |
| |
| /* See if the loader has specified the BI_VME_TYPE tag. Recent |
| * versions of VMELILO and TFTPLILO do this. We have to do this |
| * early so we know how to handle console output. If the tag |
| * doesn't exist then we use the Bug for output on MVME16x. |
| */ |
| L(getvmetype): |
| get_bi_record BI_VME_TYPE |
| tstl %d0 |
| jbmi 1f |
| movel %a0@,%d3 |
| lea %pc@(vme_brdtype),%a0 |
| movel %d3,%a0@ |
| 1: |
| #ifdef CONFIG_MVME16x |
| is_not_mvme16x(L(gvtdone)) |
| |
| /* Need to get the BRD_ID info to differentiate between 162, 167, |
| * etc. This is available as a BI_VME_BRDINFO tag with later |
| * versions of VMELILO and TFTPLILO, otherwise we call the Bug. |
| */ |
| get_bi_record BI_VME_BRDINFO |
| tstl %d0 |
| jpl 1f |
| |
| /* Get pointer to board ID data from Bug */ |
| movel %d2,%sp@- |
| trap #15 |
| .word 0x70 /* trap 0x70 - .BRD_ID */ |
| movel %sp@+,%a0 |
| 1: |
| lea %pc@(mvme_bdid),%a1 |
| /* Structure is 32 bytes long */ |
| movel %a0@+,%a1@+ |
| movel %a0@+,%a1@+ |
| movel %a0@+,%a1@+ |
| movel %a0@+,%a1@+ |
| movel %a0@+,%a1@+ |
| movel %a0@+,%a1@+ |
| movel %a0@+,%a1@+ |
| movel %a0@+,%a1@+ |
| #endif |
| |
| L(gvtdone): |
| |
| #endif |
| |
| #ifdef CONFIG_HP300 |
| is_not_hp300(L(nothp)) |
| |
| /* Get the address of the UART for serial debugging */ |
| get_bi_record BI_HP300_UART_ADDR |
| tstl %d0 |
| jbmi 1f |
| movel %a0@,%d3 |
| lea %pc@(L(uartbase)),%a0 |
| movel %d3,%a0@ |
| get_bi_record BI_HP300_UART_SCODE |
| tstl %d0 |
| jbmi 1f |
| movel %a0@,%d3 |
| lea %pc@(L(uart_scode)),%a0 |
| movel %d3,%a0@ |
| 1: |
| L(nothp): |
| #endif |
| |
| /* |
| * Initialize serial port |
| */ |
| jbsr L(serial_init) |
| |
| /* |
| * Initialize console |
| */ |
| #ifdef CONFIG_MAC |
| is_not_mac(L(nocon)) |
| #ifdef CONSOLE |
| console_init |
| #ifdef CONSOLE_PENGUIN |
| console_put_penguin |
| #endif /* CONSOLE_PENGUIN */ |
| console_put_stats |
| #endif /* CONSOLE */ |
| L(nocon): |
| #endif /* CONFIG_MAC */ |
| |
| |
| putc '\n' |
| putc 'A' |
| leds 0x2 |
| dputn %pc@(L(cputype)) |
| dputn %pc@(m68k_supervisor_cachemode) |
| dputn %pc@(m68k_pgtable_cachemode) |
| dputc '\n' |
| |
| /* |
| * Save physical start address of kernel |
| */ |
| lea %pc@(L(phys_kernel_start)),%a0 |
| lea %pc@(_stext),%a1 |
| subl #_stext,%a1 |
| addl #PAGE_OFFSET,%a1 |
| movel %a1,%a0@ |
| |
| putc 'B' |
| |
| leds 0x4 |
| |
| /* |
| * mmu_init |
| * |
| * This block of code does what's necessary to map in the various kinds |
| * of machines for execution of Linux. |
| * First map the first 4 MB of kernel code & data |
| */ |
| |
| mmu_map #PAGE_OFFSET,%pc@(L(phys_kernel_start)),#4*1024*1024,\ |
| %pc@(m68k_supervisor_cachemode) |
| |
| putc 'C' |
| |
| #ifdef CONFIG_AMIGA |
| |
| L(mmu_init_amiga): |
| |
| is_not_amiga(L(mmu_init_not_amiga)) |
| /* |
| * mmu_init_amiga |
| */ |
| |
| putc 'D' |
| |
| is_not_040_or_060(1f) |
| |
| /* |
| * 040: Map the 16Meg range physical 0x0 upto logical 0x8000.0000 |
| */ |
| mmu_map #0x80000000,#0,#0x01000000,#_PAGE_NOCACHE_S |
| /* |
| * Map the Zorro III I/O space with transparent translation |
| * for frame buffer memory etc. |
| */ |
| mmu_map_tt #1,#0x40000000,#0x20000000,#_PAGE_NOCACHE_S |
| |
| jbra L(mmu_init_done) |
| |
| 1: |
| /* |
| * 030: Map the 32Meg range physical 0x0 upto logical 0x8000.0000 |
| */ |
| mmu_map #0x80000000,#0,#0x02000000,#_PAGE_NOCACHE030 |
| mmu_map_tt #1,#0x40000000,#0x20000000,#_PAGE_NOCACHE030 |
| |
| jbra L(mmu_init_done) |
| |
| L(mmu_init_not_amiga): |
| #endif |
| |
| #ifdef CONFIG_ATARI |
| |
| L(mmu_init_atari): |
| |
| is_not_atari(L(mmu_init_not_atari)) |
| |
| putc 'E' |
| |
| /* On the Atari, we map the I/O region (phys. 0x00ffxxxx) by mapping |
| the last 16 MB of virtual address space to the first 16 MB (i.e. |
| 0xffxxxxxx -> 0x00xxxxxx). For this, an additional pointer table is |
| needed. I/O ranges are marked non-cachable. |
| |
| For the Medusa it is better to map the I/O region transparently |
| (i.e. 0xffxxxxxx -> 0xffxxxxxx), because some I/O registers are |
| accessible only in the high area. |
| |
| On the Hades all I/O registers are only accessible in the high |
| area. |
| */ |
| |
| /* I/O base addr for non-Medusa, non-Hades: 0x00000000 */ |
| moveq #0,%d0 |
| movel %pc@(atari_mch_type),%d3 |
| cmpl #ATARI_MACH_MEDUSA,%d3 |
| jbeq 2f |
| cmpl #ATARI_MACH_HADES,%d3 |
| jbne 1f |
| 2: movel #0xff000000,%d0 /* Medusa/Hades base addr: 0xff000000 */ |
| 1: movel %d0,%d3 |
| |
| is_040_or_060(L(spata68040)) |
| |
| /* Map everything non-cacheable, though not all parts really |
| * need to disable caches (crucial only for 0xff8000..0xffffff |
| * (standard I/O) and 0xf00000..0xf3ffff (IDE)). The remainder |
| * isn't really used, except for sometimes peeking into the |
| * ROMs (mirror at phys. 0x0), so caching isn't necessary for |
| * this. */ |
| mmu_map #0xff000000,%d3,#0x01000000,#_PAGE_NOCACHE030 |
| |
| jbra L(mmu_init_done) |
| |
| L(spata68040): |
| |
| mmu_map #0xff000000,%d3,#0x01000000,#_PAGE_NOCACHE_S |
| |
| jbra L(mmu_init_done) |
| |
| L(mmu_init_not_atari): |
| #endif |
| |
| #ifdef CONFIG_Q40 |
| is_not_q40(L(notq40)) |
| /* |
| * add transparent mapping for 0xff00 0000 - 0xffff ffff |
| * non-cached serialized etc.. |
| * this includes master chip, DAC, RTC and ISA ports |
| * 0xfe000000-0xfeffffff is for screen and ROM |
| */ |
| |
| putc 'Q' |
| |
| mmu_map_tt #0,#0xfe000000,#0x01000000,#_PAGE_CACHE040W |
| mmu_map_tt #1,#0xff000000,#0x01000000,#_PAGE_NOCACHE_S |
| |
| jbra L(mmu_init_done) |
| |
| L(notq40): |
| #endif |
| |
| #ifdef CONFIG_HP300 |
| is_not_hp300(L(nothp300)) |
| |
| /* On the HP300, we map the ROM, INTIO and DIO regions (phys. 0x00xxxxxx) |
| * by mapping 32MB (on 020/030) or 16 MB (on 040) from 0xf0xxxxxx -> 0x00xxxxxx). |
| * The ROM mapping is needed because the LEDs are mapped there too. |
| */ |
| |
| is_040(1f) |
| |
| /* |
| * 030: Map the 32Meg range physical 0x0 upto logical 0xf000.0000 |
| */ |
| mmu_map #0xf0000000,#0,#0x02000000,#_PAGE_NOCACHE030 |
| |
| jbra L(mmu_init_done) |
| |
| 1: |
| /* |
| * 040: Map the 16Meg range physical 0x0 upto logical 0xf000.0000 |
| */ |
| mmu_map #0xf0000000,#0,#0x01000000,#_PAGE_NOCACHE_S |
| |
| jbra L(mmu_init_done) |
| |
| L(nothp300): |
| #endif /* CONFIG_HP300 */ |
| |
| #ifdef CONFIG_MVME147 |
| |
| is_not_mvme147(L(not147)) |
| |
| /* |
| * On MVME147 we have already created kernel page tables for |
| * 4MB of RAM at address 0, so now need to do a transparent |
| * mapping of the top of memory space. Make it 0.5GByte for now, |
| * so we can access on-board i/o areas. |
| */ |
| |
| mmu_map_tt #1,#0xe0000000,#0x20000000,#_PAGE_NOCACHE030 |
| |
| jbra L(mmu_init_done) |
| |
| L(not147): |
| #endif /* CONFIG_MVME147 */ |
| |
| #ifdef CONFIG_MVME16x |
| |
| is_not_mvme16x(L(not16x)) |
| |
| /* |
| * On MVME16x we have already created kernel page tables for |
| * 4MB of RAM at address 0, so now need to do a transparent |
| * mapping of the top of memory space. Make it 0.5GByte for now. |
| * Supervisor only access, so transparent mapping doesn't |
| * clash with User code virtual address space. |
| * this covers IO devices, PROM and SRAM. The PROM and SRAM |
| * mapping is needed to allow 167Bug to run. |
| * IO is in the range 0xfff00000 to 0xfffeffff. |
| * PROM is 0xff800000->0xffbfffff and SRAM is |
| * 0xffe00000->0xffe1ffff. |
| */ |
| |
| mmu_map_tt #1,#0xe0000000,#0x20000000,#_PAGE_NOCACHE_S |
| |
| jbra L(mmu_init_done) |
| |
| L(not16x): |
| #endif /* CONFIG_MVME162 | CONFIG_MVME167 */ |
| |
| #ifdef CONFIG_BVME6000 |
| |
| is_not_bvme6000(L(not6000)) |
| |
| /* |
| * On BVME6000 we have already created kernel page tables for |
| * 4MB of RAM at address 0, so now need to do a transparent |
| * mapping of the top of memory space. Make it 0.5GByte for now, |
| * so we can access on-board i/o areas. |
| * Supervisor only access, so transparent mapping doesn't |
| * clash with User code virtual address space. |
| */ |
| |
| mmu_map_tt #1,#0xe0000000,#0x20000000,#_PAGE_NOCACHE_S |
| |
| jbra L(mmu_init_done) |
| |
| L(not6000): |
| #endif /* CONFIG_BVME6000 */ |
| |
| /* |
| * mmu_init_mac |
| * |
| * The Macintosh mappings are less clear. |
| * |
| * Even as of this writing, it is unclear how the |
| * Macintosh mappings will be done. However, as |
| * the first author of this code I'm proposing the |
| * following model: |
| * |
| * Map the kernel (that's already done), |
| * Map the I/O (on most machines that's the |
| * 0x5000.0000 ... 0x5300.0000 range, |
| * Map the video frame buffer using as few pages |
| * as absolutely (this requirement mostly stems from |
| * the fact that when the frame buffer is at |
| * 0x0000.0000 then we know there is valid RAM just |
| * above the screen that we don't want to waste!). |
| * |
| * By the way, if the frame buffer is at 0x0000.0000 |
| * then the Macintosh is known as an RBV based Mac. |
| * |
| * By the way 2, the code currently maps in a bunch of |
| * regions. But I'd like to cut that out. (And move most |
| * of the mappings up into the kernel proper ... or only |
| * map what's necessary.) |
| */ |
| |
| #ifdef CONFIG_MAC |
| |
| L(mmu_init_mac): |
| |
| is_not_mac(L(mmu_init_not_mac)) |
| |
| putc 'F' |
| |
| is_not_040_or_060(1f) |
| |
| moveq #_PAGE_NOCACHE_S,%d3 |
| jbra 2f |
| 1: |
| moveq #_PAGE_NOCACHE030,%d3 |
| 2: |
| /* |
| * Mac Note: screen address of logical 0xF000.0000 -> <screen physical> |
| * we simply map the 4MB that contains the videomem |
| */ |
| |
| movel #VIDEOMEMMASK,%d0 |
| andl %pc@(L(mac_videobase)),%d0 |
| |
| mmu_map #VIDEOMEMBASE,%d0,#VIDEOMEMSIZE,%d3 |
| /* ROM from 4000 0000 to 4200 0000 (only for mac_reset()) */ |
| mmu_map_eq #0x40000000,#0x02000000,%d3 |
| /* IO devices (incl. serial port) from 5000 0000 to 5300 0000 */ |
| mmu_map_eq #0x50000000,#0x03000000,%d3 |
| /* Nubus slot space (video at 0xF0000000, rom at 0xF0F80000) */ |
| mmu_map_tt #1,#0xf8000000,#0x08000000,%d3 |
| |
| jbra L(mmu_init_done) |
| |
| L(mmu_init_not_mac): |
| #endif |
| |
| #ifdef CONFIG_SUN3X |
| is_not_sun3x(L(notsun3x)) |
| |
| /* oh, the pain.. We're gonna want the prom code after |
| * starting the MMU, so we copy the mappings, translating |
| * from 8k -> 4k pages as we go. |
| */ |
| |
| /* copy maps from 0xfee00000 to 0xff000000 */ |
| movel #0xfee00000, %d0 |
| moveq #ROOT_INDEX_SHIFT, %d1 |
| lsrl %d1,%d0 |
| mmu_get_root_table_entry %d0 |
| |
| movel #0xfee00000, %d0 |
| moveq #PTR_INDEX_SHIFT, %d1 |
| lsrl %d1,%d0 |
| andl #PTR_TABLE_SIZE-1, %d0 |
| mmu_get_ptr_table_entry %a0,%d0 |
| |
| movel #0xfee00000, %d0 |
| moveq #PAGE_INDEX_SHIFT, %d1 |
| lsrl %d1,%d0 |
| andl #PAGE_TABLE_SIZE-1, %d0 |
| mmu_get_page_table_entry %a0,%d0 |
| |
| /* this is where the prom page table lives */ |
| movel 0xfefe00d4, %a1 |
| movel %a1@, %a1 |
| |
| movel #((0x200000 >> 13)-1), %d1 |
| |
| 1: |
| movel %a1@+, %d3 |
| movel %d3,%a0@+ |
| addl #0x1000,%d3 |
| movel %d3,%a0@+ |
| |
| dbra %d1,1b |
| |
| /* setup tt1 for I/O */ |
| mmu_map_tt #1,#0x40000000,#0x40000000,#_PAGE_NOCACHE_S |
| jbra L(mmu_init_done) |
| |
| L(notsun3x): |
| #endif |
| |
| #ifdef CONFIG_APOLLO |
| is_not_apollo(L(notapollo)) |
| |
| putc 'P' |
| mmu_map #0x80000000,#0,#0x02000000,#_PAGE_NOCACHE030 |
| |
| L(notapollo): |
| jbra L(mmu_init_done) |
| #endif |
| |
| L(mmu_init_done): |
| |
| putc 'G' |
| leds 0x8 |
| |
| /* |
| * mmu_fixup |
| * |
| * On the 040 class machines, all pages that are used for the |
| * mmu have to be fixed up. According to Motorola, pages holding mmu |
| * tables should be non-cacheable on a '040 and write-through on a |
| * '060. But analysis of the reasons for this, and practical |
| * experience, showed that write-through also works on a '040. |
| * |
| * Allocated memory so far goes from kernel_end to memory_start that |
| * is used for all kind of tables, for that the cache attributes |
| * are now fixed. |
| */ |
| L(mmu_fixup): |
| |
| is_not_040_or_060(L(mmu_fixup_done)) |
| |
| #ifdef MMU_NOCACHE_KERNEL |
| jbra L(mmu_fixup_done) |
| #endif |
| |
| /* first fix the page at the start of the kernel, that |
| * contains also kernel_pg_dir. |
| */ |
| movel %pc@(L(phys_kernel_start)),%d0 |
| subl #PAGE_OFFSET,%d0 |
| lea %pc@(_stext),%a0 |
| subl %d0,%a0 |
| mmu_fixup_page_mmu_cache %a0 |
| |
| movel %pc@(L(kernel_end)),%a0 |
| subl %d0,%a0 |
| movel %pc@(L(memory_start)),%a1 |
| subl %d0,%a1 |
| bra 2f |
| 1: |
| mmu_fixup_page_mmu_cache %a0 |
| addw #PAGESIZE,%a0 |
| 2: |
| cmpl %a0,%a1 |
| jgt 1b |
| |
| L(mmu_fixup_done): |
| |
| #ifdef MMU_PRINT |
| mmu_print |
| #endif |
| |
| /* |
| * mmu_engage |
| * |
| * This chunk of code performs the gruesome task of engaging the MMU. |
| * The reason its gruesome is because when the MMU becomes engaged it |
| * maps logical addresses to physical addresses. The Program Counter |
| * register is then passed through the MMU before the next instruction |
| * is fetched (the instruction following the engage MMU instruction). |
| * This may mean one of two things: |
| * 1. The Program Counter falls within the logical address space of |
| * the kernel of which there are two sub-possibilities: |
| * A. The PC maps to the correct instruction (logical PC == physical |
| * code location), or |
| * B. The PC does not map through and the processor will read some |
| * data (or instruction) which is not the logically next instr. |
| * As you can imagine, A is good and B is bad. |
| * Alternatively, |
| * 2. The Program Counter does not map through the MMU. The processor |
| * will take a Bus Error. |
| * Clearly, 2 is bad. |
| * It doesn't take a wiz kid to figure you want 1.A. |
| * This code creates that possibility. |
| * There are two possible 1.A. states (we now ignore the other above states): |
| * A. The kernel is located at physical memory addressed the same as |
| * the logical memory for the kernel, i.e., 0x01000. |
| * B. The kernel is located some where else. e.g., 0x0400.0000 |
| * |
| * Under some conditions the Macintosh can look like A or B. |
| * [A friend and I once noted that Apple hardware engineers should be |
| * wacked twice each day: once when they show up at work (as in, Whack!, |
| * "This is for the screwy hardware we know you're going to design today."), |
| * and also at the end of the day (as in, Whack! "I don't know what |
| * you designed today, but I'm sure it wasn't good."). -- rst] |
| * |
| * This code works on the following premise: |
| * If the kernel start (%d5) is within the first 16 Meg of RAM, |
| * then create a mapping for the kernel at logical 0x8000.0000 to |
| * the physical location of the pc. And, create a transparent |
| * translation register for the first 16 Meg. Then, after the MMU |
| * is engaged, the PC can be moved up into the 0x8000.0000 range |
| * and then the transparent translation can be turned off and then |
| * the PC can jump to the correct logical location and it will be |
| * home (finally). This is essentially the code that the Amiga used |
| * to use. Now, it's generalized for all processors. Which means |
| * that a fresh (but temporary) mapping has to be created. The mapping |
| * is made in page 0 (an as of yet unused location -- except for the |
| * stack!). This temporary mapping will only require 1 pointer table |
| * and a single page table (it can map 256K). |
| * |
| * OK, alternatively, imagine that the Program Counter is not within |
| * the first 16 Meg. Then, just use Transparent Translation registers |
| * to do the right thing. |
| * |
| * Last, if _start is already at 0x01000, then there's nothing special |
| * to do (in other words, in a degenerate case of the first case above, |
| * do nothing). |
| * |
| * Let's do it. |
| * |
| * |
| */ |
| |
| putc 'H' |
| |
| mmu_engage |
| |
| /* |
| * After this point no new memory is allocated and |
| * the start of available memory is stored in availmem. |
| * (The bootmem allocator requires now the physicall address.) |
| */ |
| |
| movel L(memory_start),availmem |
| |
| #ifdef CONFIG_AMIGA |
| is_not_amiga(1f) |
| /* fixup the Amiga custom register location before printing */ |
| clrl L(custom) |
| 1: |
| #endif |
| |
| #ifdef CONFIG_ATARI |
| is_not_atari(1f) |
| /* fixup the Atari iobase register location before printing */ |
| movel #0xff000000,L(iobase) |
| 1: |
| #endif |
| |
| #ifdef CONFIG_MAC |
| is_not_mac(1f) |
| movel #~VIDEOMEMMASK,%d0 |
| andl L(mac_videobase),%d0 |
| addl #VIDEOMEMBASE,%d0 |
| movel %d0,L(mac_videobase) |
| #if defined(CONSOLE) |
| movel %pc@(L(phys_kernel_start)),%d0 |
| subl #PAGE_OFFSET,%d0 |
| subl %d0,L(console_font) |
| subl %d0,L(console_font_data) |
| #endif |
| #ifdef MAC_SERIAL_DEBUG |
| orl #0x50000000,L(mac_sccbase) |
| #endif |
| 1: |
| #endif |
| |
| #ifdef CONFIG_HP300 |
| is_not_hp300(2f) |
| /* |
| * Fix up the iobase register to point to the new location of the LEDs. |
| */ |
| movel #0xf0000000,L(iobase) |
| |
| /* |
| * Energise the FPU and caches. |
| */ |
| is_040(1f) |
| movel #0x60,0xf05f400c |
| jbra 2f |
| |
| /* |
| * 040: slightly different, apparently. |
| */ |
| 1: movew #0,0xf05f400e |
| movew #0x64,0xf05f400e |
| 2: |
| #endif |
| |
| #ifdef CONFIG_SUN3X |
| is_not_sun3x(1f) |
| |
| /* enable copro */ |
| oriw #0x4000,0x61000000 |
| 1: |
| #endif |
| |
| #ifdef CONFIG_APOLLO |
| is_not_apollo(1f) |
| |
| /* |
| * Fix up the iobase before printing |
| */ |
| movel #0x80000000,L(iobase) |
| 1: |
| #endif |
| |
| putc 'I' |
| leds 0x10 |
| |
| /* |
| * Enable caches |
| */ |
| |
| is_not_040_or_060(L(cache_not_680460)) |
| |
| L(cache680460): |
| .chip 68040 |
| nop |
| cpusha %bc |
| nop |
| |
| is_060(L(cache68060)) |
| |
| movel #CC6_ENABLE_D+CC6_ENABLE_I,%d0 |
| /* MMU stuff works in copyback mode now, so enable the cache */ |
| movec %d0,%cacr |
| jra L(cache_done) |
| |
| L(cache68060): |
| movel #CC6_ENABLE_D+CC6_ENABLE_I+CC6_ENABLE_SB+CC6_PUSH_DPI+CC6_ENABLE_B+CC6_CLRA_B,%d0 |
| /* MMU stuff works in copyback mode now, so enable the cache */ |
| movec %d0,%cacr |
| /* enable superscalar dispatch in PCR */ |
| moveq #1,%d0 |
| .chip 68060 |
| movec %d0,%pcr |
| |
| jbra L(cache_done) |
| L(cache_not_680460): |
| L(cache68030): |
| .chip 68030 |
| movel #CC3_ENABLE_DB+CC3_CLR_D+CC3_ENABLE_D+CC3_ENABLE_IB+CC3_CLR_I+CC3_ENABLE_I,%d0 |
| movec %d0,%cacr |
| |
| jra L(cache_done) |
| .chip 68k |
| L(cache_done): |
| |
| putc 'J' |
| |
| /* |
| * Setup initial stack pointer |
| */ |
| lea init_task,%curptr |
| lea init_thread_union+THREAD_SIZE,%sp |
| |
| putc 'K' |
| |
| subl %a6,%a6 /* clear a6 for gdb */ |
| |
| /* |
| * The new 64bit printf support requires an early exception initialization. |
| */ |
| jbsr base_trap_init |
| |
| /* jump to the kernel start */ |
| |
| putc '\n' |
| leds 0x55 |
| |
| jbsr start_kernel |
| |
| /* |
| * Find a tag record in the bootinfo structure |
| * The bootinfo structure is located right after the kernel bss |
| * Returns: d0: size (-1 if not found) |
| * a0: data pointer (end-of-records if not found) |
| */ |
| func_start get_bi_record,%d1 |
| |
| movel ARG1,%d0 |
| lea %pc@(_end),%a0 |
| 1: tstw %a0@(BIR_TAG) |
| jeq 3f |
| cmpw %a0@(BIR_TAG),%d0 |
| jeq 2f |
| addw %a0@(BIR_SIZE),%a0 |
| jra 1b |
| 2: moveq #0,%d0 |
| movew %a0@(BIR_SIZE),%d0 |
| lea %a0@(BIR_DATA),%a0 |
| jra 4f |
| 3: moveq #-1,%d0 |
| lea %a0@(BIR_SIZE),%a0 |
| 4: |
| func_return get_bi_record |
| |
| |
| /* |
| * MMU Initialization Begins Here |
| * |
| * The structure of the MMU tables on the 68k machines |
| * is thus: |
| * Root Table |
| * Logical addresses are translated through |
| * a hierarchical translation mechanism where the high-order |
| * seven bits of the logical address (LA) are used as an |
| * index into the "root table." Each entry in the root |
| * table has a bit which specifies if it's a valid pointer to a |
| * pointer table. Each entry defines a 32KMeg range of memory. |
| * If an entry is invalid then that logical range of 32M is |
| * invalid and references to that range of memory (when the MMU |
| * is enabled) will fault. If the entry is valid, then it does |
| * one of two things. On 040/060 class machines, it points to |
| * a pointer table which then describes more finely the memory |
| * within that 32M range. On 020/030 class machines, a technique |
| * called "early terminating descriptors" are used. This technique |
| * allows an entire 32Meg to be described by a single entry in the |
| * root table. Thus, this entry in the root table, contains the |
| * physical address of the memory or I/O at the logical address |
| * which the entry represents and it also contains the necessary |
| * cache bits for this region. |
| * |
| * Pointer Tables |
| * Per the Root Table, there will be one or more |
| * pointer tables. Each pointer table defines a 32M range. |
| * Not all of the 32M range need be defined. Again, the next |
| * seven bits of the logical address are used an index into |
| * the pointer table to point to page tables (if the pointer |
| * is valid). There will undoubtedly be more than one |
| * pointer table for the kernel because each pointer table |
| * defines a range of only 32M. Valid pointer table entries |
| * point to page tables, or are early terminating entries |
| * themselves. |
| * |
| * Page Tables |
| * Per the Pointer Tables, each page table entry points |
| * to the physical page in memory that supports the logical |
| * address that translates to the particular index. |
| * |
| * In short, the Logical Address gets translated as follows: |
| * bits 31..26 - index into the Root Table |
| * bits 25..18 - index into the Pointer Table |
| * bits 17..12 - index into the Page Table |
| * bits 11..0 - offset into a particular 4K page |
| * |
| * The algorithms which follows do one thing: they abstract |
| * the MMU hardware. For example, there are three kinds of |
| * cache settings that are relevant. Either, memory is |
| * being mapped in which case it is either Kernel Code (or |
| * the RamDisk) or it is MMU data. On the 030, the MMU data |
| * option also describes the kernel. Or, I/O is being mapped |
| * in which case it has its own kind of cache bits. There |
| * are constants which abstract these notions from the code that |
| * actually makes the call to map some range of memory. |
| * |
| * |
| * |
| */ |
| |
| #ifdef MMU_PRINT |
| /* |
| * mmu_print |
| * |
| * This algorithm will print out the current MMU mappings. |
| * |
| * Input: |
| * %a5 points to the root table. Everything else is calculated |
| * from this. |
| */ |
| |
| #define mmu_next_valid 0 |
| #define mmu_start_logical 4 |
| #define mmu_next_logical 8 |
| #define mmu_start_physical 12 |
| #define mmu_next_physical 16 |
| |
| #define MMU_PRINT_INVALID -1 |
| #define MMU_PRINT_VALID 1 |
| #define MMU_PRINT_UNINITED 0 |
| |
| #define putZc(z,n) jbne 1f; putc z; jbra 2f; 1: putc n; 2: |
| |
| func_start mmu_print,%a0-%a6/%d0-%d7 |
| |
| movel %pc@(L(kernel_pgdir_ptr)),%a5 |
| lea %pc@(L(mmu_print_data)),%a0 |
| movel #MMU_PRINT_UNINITED,%a0@(mmu_next_valid) |
| |
| is_not_040_or_060(mmu_030_print) |
| |
| mmu_040_print: |
| puts "\nMMU040\n" |
| puts "rp:" |
| putn %a5 |
| putc '\n' |
| #if 0 |
| /* |
| * The following #if/#endif block is a tight algorithm for dumping the 040 |
| * MMU Map in gory detail. It really isn't that practical unless the |
| * MMU Map algorithm appears to go awry and you need to debug it at the |
| * entry per entry level. |
| */ |
| movel #ROOT_TABLE_SIZE,%d5 |
| #if 0 |
| movel %a5@+,%d7 | Burn an entry to skip the kernel mappings, |
| subql #1,%d5 | they (might) work |
| #endif |
| 1: tstl %d5 |
| jbeq mmu_print_done |
| subq #1,%d5 |
| movel %a5@+,%d7 |
| btst #1,%d7 |
| jbeq 1b |
| |
| 2: putn %d7 |
| andil #0xFFFFFE00,%d7 |
| movel %d7,%a4 |
| movel #PTR_TABLE_SIZE,%d4 |
| putc ' ' |
| 3: tstl %d4 |
| jbeq 11f |
| subq #1,%d4 |
| movel %a4@+,%d7 |
| btst #1,%d7 |
| jbeq 3b |
| |
| 4: putn %d7 |
| andil #0xFFFFFF00,%d7 |
| movel %d7,%a3 |
| movel #PAGE_TABLE_SIZE,%d3 |
| 5: movel #8,%d2 |
| 6: tstl %d3 |
| jbeq 31f |
| subq #1,%d3 |
| movel %a3@+,%d6 |
| btst #0,%d6 |
| jbeq 6b |
| 7: tstl %d2 |
| jbeq 8f |
| subq #1,%d2 |
| putc ' ' |
| jbra 91f |
| 8: putc '\n' |
| movel #8+1+8+1+1,%d2 |
| 9: putc ' ' |
| dbra %d2,9b |
| movel #7,%d2 |
| 91: putn %d6 |
| jbra 6b |
| |
| 31: putc '\n' |
| movel #8+1,%d2 |
| 32: putc ' ' |
| dbra %d2,32b |
| jbra 3b |
| |
| 11: putc '\n' |
| jbra 1b |
| #endif /* MMU 040 Dumping code that's gory and detailed */ |
| |
| lea %pc@(kernel_pg_dir),%a5 |
| movel %a5,%a0 /* a0 has the address of the root table ptr */ |
| movel #0x00000000,%a4 /* logical address */ |
| moveql #0,%d0 |
| 40: |
| /* Increment the logical address and preserve in d5 */ |
| movel %a4,%d5 |
| addil #PAGESIZE<<13,%d5 |
| movel %a0@+,%d6 |
| btst #1,%d6 |
| jbne 41f |
| jbsr mmu_print_tuple_invalidate |
| jbra 48f |
| 41: |
| movel #0,%d1 |
| andil #0xfffffe00,%d6 |
| movel %d6,%a1 |
| 42: |
| movel %a4,%d5 |
| addil #PAGESIZE<<6,%d5 |
| movel %a1@+,%d6 |
| btst #1,%d6 |
| jbne 43f |
| jbsr mmu_print_tuple_invalidate |
| jbra 47f |
| 43: |
| movel #0,%d2 |
| andil #0xffffff00,%d6 |
| movel %d6,%a2 |
| 44: |
| movel %a4,%d5 |
| addil #PAGESIZE,%d5 |
| movel %a2@+,%d6 |
| btst #0,%d6 |
| jbne 45f |
| jbsr mmu_print_tuple_invalidate |
| jbra 46f |
| 45: |
| moveml %d0-%d1,%sp@- |
| movel %a4,%d0 |
| movel %d6,%d1 |
| andil #0xfffff4e0,%d1 |
| lea %pc@(mmu_040_print_flags),%a6 |
| jbsr mmu_print_tuple |
| moveml %sp@+,%d0-%d1 |
| 46: |
| movel %d5,%a4 |
| addq #1,%d2 |
| cmpib #64,%d2 |
| jbne 44b |
| 47: |
| movel %d5,%a4 |
| addq #1,%d1 |
| cmpib #128,%d1 |
| jbne 42b |
| 48: |
| movel %d5,%a4 /* move to the next logical address */ |
| addq #1,%d0 |
| cmpib #128,%d0 |
| jbne 40b |
| |
| .chip 68040 |
| movec %dtt1,%d0 |
| movel %d0,%d1 |
| andiw #0x8000,%d1 /* is it valid ? */ |
| jbeq 1f /* No, bail out */ |
| |
| movel %d0,%d1 |
| andil #0xff000000,%d1 /* Get the address */ |
| putn %d1 |
| puts "==" |
| putn %d1 |
| |
| movel %d0,%d6 |
| jbsr mmu_040_print_flags_tt |
| 1: |
| movec %dtt0,%d0 |
| movel %d0,%d1 |
| andiw #0x8000,%d1 /* is it valid ? */ |
| jbeq 1f /* No, bail out */ |
| |
| movel %d0,%d1 |
| andil #0xff000000,%d1 /* Get the address */ |
| putn %d1 |
| puts "==" |
| putn %d1 |
| |
| movel %d0,%d6 |
| jbsr mmu_040_print_flags_tt |
| 1: |
| .chip 68k |
| |
| jbra mmu_print_done |
| |
| mmu_040_print_flags: |
| btstl #10,%d6 |
| putZc(' ','G') /* global bit */ |
| btstl #7,%d6 |
| putZc(' ','S') /* supervisor bit */ |
| mmu_040_print_flags_tt: |
| btstl #6,%d6 |
| jbne 3f |
| putc 'C' |
| btstl #5,%d6 |
| putZc('w','c') /* write through or copy-back */ |
| jbra 4f |
| 3: |
| putc 'N' |
| btstl #5,%d6 |
| putZc('s',' ') /* serialized non-cacheable, or non-cacheable */ |
| 4: |
| rts |
| |
| mmu_030_print_flags: |
| btstl #6,%d6 |
| putZc('C','I') /* write through or copy-back */ |
| rts |
| |
| mmu_030_print: |
| puts "\nMMU030\n" |
| puts "\nrp:" |
| putn %a5 |
| putc '\n' |
| movel %a5,%d0 |
| andil #0xfffffff0,%d0 |
| movel %d0,%a0 |
| movel #0x00000000,%a4 /* logical address */ |
| movel #0,%d0 |
| 30: |
| movel %a4,%d5 |
| addil #PAGESIZE<<13,%d5 |
| movel %a0@+,%d6 |
| btst #1,%d6 /* is it a table ptr? */ |
| jbne 31f /* yes */ |
| btst #0,%d6 /* is it early terminating? */ |
| jbeq 1f /* no */ |
| jbsr mmu_030_print_helper |
| jbra 38f |
| 1: |
| jbsr mmu_print_tuple_invalidate |
| jbra 38f |
| 31: |
| movel #0,%d1 |
| andil #0xfffffff0,%d6 |
| movel %d6,%a1 |
| 32: |
| movel %a4,%d5 |
| addil #PAGESIZE<<6,%d5 |
| movel %a1@+,%d6 |
| btst #1,%d6 /* is it a table ptr? */ |
| jbne 33f /* yes */ |
| btst #0,%d6 /* is it a page descriptor? */ |
| jbeq 1f /* no */ |
| jbsr mmu_030_print_helper |
| jbra 37f |
| 1: |
| jbsr mmu_print_tuple_invalidate |
| jbra 37f |
| 33: |
| movel #0,%d2 |
| andil #0xfffffff0,%d6 |
| movel %d6,%a2 |
| 34: |
| movel %a4,%d5 |
| addil #PAGESIZE,%d5 |
| movel %a2@+,%d6 |
| btst #0,%d6 |
| jbne 35f |
| jbsr mmu_print_tuple_invalidate |
| jbra 36f |
| 35: |
| jbsr mmu_030_print_helper |
| 36: |
| movel %d5,%a4 |
| addq #1,%d2 |
| cmpib #64,%d2 |
| jbne 34b |
| 37: |
| movel %d5,%a4 |
| addq #1,%d1 |
| cmpib #128,%d1 |
| jbne 32b |
| 38: |
| movel %d5,%a4 /* move to the next logical address */ |
| addq #1,%d0 |
| cmpib #128,%d0 |
| jbne 30b |
| |
| mmu_print_done: |
| puts "\n\n" |
| |
| func_return mmu_print |
| |
| |
| mmu_030_print_helper: |
| moveml %d0-%d1,%sp@- |
| movel %a4,%d0 |
| movel %d6,%d1 |
| lea %pc@(mmu_030_print_flags),%a6 |
| jbsr mmu_print_tuple |
| moveml %sp@+,%d0-%d1 |
| rts |
| |
| mmu_print_tuple_invalidate: |
| moveml %a0/%d7,%sp@- |
| |
| lea %pc@(L(mmu_print_data)),%a0 |
| tstl %a0@(mmu_next_valid) |
| jbmi mmu_print_tuple_invalidate_exit |
| |
| movel #MMU_PRINT_INVALID,%a0@(mmu_next_valid) |
| |
| putn %a4 |
| |
| puts "##\n" |
| |
| mmu_print_tuple_invalidate_exit: |
| moveml %sp@+,%a0/%d7 |
| rts |
| |
| |
| mmu_print_tuple: |
| moveml %d0-%d7/%a0,%sp@- |
| |
| lea %pc@(L(mmu_print_data)),%a0 |
| |
| tstl %a0@(mmu_next_valid) |
| jble mmu_print_tuple_print |
| |
| cmpl %a0@(mmu_next_physical),%d1 |
| jbeq mmu_print_tuple_increment |
| |
| mmu_print_tuple_print: |
| putn %d0 |
| puts "->" |
| putn %d1 |
| |
| movel %d1,%d6 |
| jbsr %a6@ |
| |
| mmu_print_tuple_record: |
| movel #MMU_PRINT_VALID,%a0@(mmu_next_valid) |
| |
| movel %d1,%a0@(mmu_next_physical) |
| |
| mmu_print_tuple_increment: |
| movel %d5,%d7 |
| subl %a4,%d7 |
| addl %d7,%a0@(mmu_next_physical) |
| |
| mmu_print_tuple_exit: |
| moveml %sp@+,%d0-%d7/%a0 |
| rts |
| |
| mmu_print_machine_cpu_types: |
| puts "machine: " |
| |
| is_not_amiga(1f) |
| puts "amiga" |
| jbra 9f |
| 1: |
| is_not_atari(2f) |
| puts "atari" |
| jbra 9f |
| 2: |
| is_not_mac(3f) |
| puts "macintosh" |
| jbra 9f |
| 3: puts "unknown" |
| 9: putc '\n' |
| |
| puts "cputype: 0" |
| is_not_060(1f) |
| putc '6' |
| jbra 9f |
| 1: |
| is_not_040_or_060(2f) |
| putc '4' |
| jbra 9f |
| 2: putc '3' |
| 9: putc '0' |
| putc '\n' |
| |
| rts |
| #endif /* MMU_PRINT */ |
| |
| /* |
| * mmu_map_tt |
| * |
| * This is a specific function which works on all 680x0 machines. |
| * On 030, 040 & 060 it will attempt to use Transparent Translation |
| * registers (tt1). |
| * On 020 it will call the standard mmu_map which will use early |
| * terminating descriptors. |
| */ |
| func_start mmu_map_tt,%d0/%d1/%a0,4 |
| |
| dputs "mmu_map_tt:" |
| dputn ARG1 |
| dputn ARG2 |
| dputn ARG3 |
| dputn ARG4 |
| dputc '\n' |
| |
| is_020(L(do_map)) |
| |
| /* Extract the highest bit set |
| */ |
| bfffo ARG3{#0,#32},%d1 |
| cmpw #8,%d1 |
| jcc L(do_map) |
| |
| /* And get the mask |
| */ |
| moveq #-1,%d0 |
| lsrl %d1,%d0 |
| lsrl #1,%d0 |
| |
| /* Mask the address |
| */ |
| movel %d0,%d1 |
| notl %d1 |
| andl ARG2,%d1 |
| |
| /* Generate the upper 16bit of the tt register |
| */ |
| lsrl #8,%d0 |
| orl %d0,%d1 |
| clrw %d1 |
| |
| is_040_or_060(L(mmu_map_tt_040)) |
| |
| /* set 030 specific bits (read/write access for supervisor mode |
| * (highest function code set, lower two bits masked)) |
| */ |
| orw #TTR_ENABLE+TTR_RWM+TTR_FCB2+TTR_FCM1+TTR_FCM0,%d1 |
| movel ARG4,%d0 |
| btst #6,%d0 |
| jeq 1f |
| orw #TTR_CI,%d1 |
| |
| 1: lea STACK,%a0 |
| dputn %d1 |
| movel %d1,%a0@ |
| .chip 68030 |
| tstl ARG1 |
| jne 1f |
| pmove %a0@,%tt0 |
| jra 2f |
| 1: pmove %a0@,%tt1 |
| 2: .chip 68k |
| jra L(mmu_map_tt_done) |
| |
| /* set 040 specific bits |
| */ |
| L(mmu_map_tt_040): |
| orw #TTR_ENABLE+TTR_KERNELMODE,%d1 |
| orl ARG4,%d1 |
| dputn %d1 |
| |
| .chip 68040 |
| tstl ARG1 |
| jne 1f |
| movec %d1,%itt0 |
| movec %d1,%dtt0 |
| jra 2f |
| 1: movec %d1,%itt1 |
| movec %d1,%dtt1 |
| 2: .chip 68k |
| |
| jra L(mmu_map_tt_done) |
| |
| L(do_map): |
| mmu_map_eq ARG2,ARG3,ARG4 |
| |
| L(mmu_map_tt_done): |
| |
| func_return mmu_map_tt |
| |
| /* |
| * mmu_map |
| * |
| * This routine will map a range of memory using a pointer |
| * table and allocating the pages on the fly from the kernel. |
| * The pointer table does not have to be already linked into |
| * the root table, this routine will do that if necessary. |
| * |
| * NOTE |
| * This routine will assert failure and use the serial_putc |
| * routines in the case of a run-time error. For example, |
| * if the address is already mapped. |
| * |
| * NOTE-2 |
| * This routine will use early terminating descriptors |
| * where possible for the 68020+68851 and 68030 type |
| * processors. |
| */ |
| func_start mmu_map,%d0-%d4/%a0-%a4 |
| |
| dputs "\nmmu_map:" |
| dputn ARG1 |
| dputn ARG2 |
| dputn ARG3 |
| dputn ARG4 |
| dputc '\n' |
| |
| /* Get logical address and round it down to 256KB |
| */ |
| movel ARG1,%d0 |
| andl #-(PAGESIZE*PAGE_TABLE_SIZE),%d0 |
| movel %d0,%a3 |
| |
| /* Get the end address |
| */ |
| movel ARG1,%a4 |
| addl ARG3,%a4 |
| subql #1,%a4 |
| |
| /* Get physical address and round it down to 256KB |
| */ |
| movel ARG2,%d0 |
| andl #-(PAGESIZE*PAGE_TABLE_SIZE),%d0 |
| movel %d0,%a2 |
| |
| /* Add page attributes to the physical address |
| */ |
| movel ARG4,%d0 |
| orw #_PAGE_PRESENT+_PAGE_ACCESSED+_PAGE_DIRTY,%d0 |
| addw %d0,%a2 |
| |
| dputn %a2 |
| dputn %a3 |
| dputn %a4 |
| |
| is_not_040_or_060(L(mmu_map_030)) |
| |
| addw #_PAGE_GLOBAL040,%a2 |
| /* |
| * MMU 040 & 060 Support |
| * |
| * The MMU usage for the 040 and 060 is different enough from |
| * the 030 and 68851 that there is separate code. This comment |
| * block describes the data structures and algorithms built by |
| * this code. |
| * |
| * The 040 does not support early terminating descriptors, as |
| * the 030 does. Therefore, a third level of table is needed |
| * for the 040, and that would be the page table. In Linux, |
| * page tables are allocated directly from the memory above the |
| * kernel. |
| * |
| */ |
| |
| L(mmu_map_040): |
| /* Calculate the offset into the root table |
| */ |
| movel %a3,%d0 |
| moveq #ROOT_INDEX_SHIFT,%d1 |
| lsrl %d1,%d0 |
| mmu_get_root_table_entry %d0 |
| |
| /* Calculate the offset into the pointer table |
| */ |
| movel %a3,%d0 |
| moveq #PTR_INDEX_SHIFT,%d1 |
| lsrl %d1,%d0 |
| andl #PTR_TABLE_SIZE-1,%d0 |
| mmu_get_ptr_table_entry %a0,%d0 |
| |
| /* Calculate the offset into the page table |
| */ |
| movel %a3,%d0 |
| moveq #PAGE_INDEX_SHIFT,%d1 |
| lsrl %d1,%d0 |
| andl #PAGE_TABLE_SIZE-1,%d0 |
| mmu_get_page_table_entry %a0,%d0 |
| |
| /* The page table entry must not no be busy |
| */ |
| tstl %a0@ |
| jne L(mmu_map_error) |
| |
| /* Do the mapping and advance the pointers |
| */ |
| movel %a2,%a0@ |
| 2: |
| addw #PAGESIZE,%a2 |
| addw #PAGESIZE,%a3 |
| |
| /* Ready with mapping? |
| */ |
| lea %a3@(-1),%a0 |
| cmpl %a0,%a4 |
| jhi L(mmu_map_040) |
| jra L(mmu_map_done) |
| |
| L(mmu_map_030): |
| /* Calculate the offset into the root table |
| */ |
| movel %a3,%d0 |
| moveq #ROOT_INDEX_SHIFT,%d1 |
| lsrl %d1,%d0 |
| mmu_get_root_table_entry %d0 |
| |
| /* Check if logical address 32MB aligned, |
| * so we can try to map it once |
| */ |
| movel %a3,%d0 |
| andl #(PTR_TABLE_SIZE*PAGE_TABLE_SIZE*PAGESIZE-1)&(-ROOT_TABLE_SIZE),%d0 |
| jne 1f |
| |
| /* Is there enough to map for 32MB at once |
| */ |
| lea %a3@(PTR_TABLE_SIZE*PAGE_TABLE_SIZE*PAGESIZE-1),%a1 |
| cmpl %a1,%a4 |
| jcs 1f |
| |
| addql #1,%a1 |
| |
| /* The root table entry must not no be busy |
| */ |
| tstl %a0@ |
| jne L(mmu_map_error) |
| |
| /* Do the mapping and advance the pointers |
| */ |
| dputs "early term1" |
| dputn %a2 |
| dputn %a3 |
| dputn %a1 |
| dputc '\n' |
| movel %a2,%a0@ |
| |
| movel %a1,%a3 |
| lea %a2@(PTR_TABLE_SIZE*PAGE_TABLE_SIZE*PAGESIZE),%a2 |
| jra L(mmu_mapnext_030) |
| 1: |
| /* Calculate the offset into the pointer table |
| */ |
| movel %a3,%d0 |
| moveq #PTR_INDEX_SHIFT,%d1 |
| lsrl %d1,%d0 |
| andl #PTR_TABLE_SIZE-1,%d0 |
| mmu_get_ptr_table_entry %a0,%d0 |
| |
| /* The pointer table entry must not no be busy |
| */ |
| tstl %a0@ |
| jne L(mmu_map_error) |
| |
| /* Do the mapping and advance the pointers |
| */ |
| dputs "early term2" |
| dputn %a2 |
| dputn %a3 |
| dputc '\n' |
| movel %a2,%a0@ |
| |
| addl #PAGE_TABLE_SIZE*PAGESIZE,%a2 |
| addl #PAGE_TABLE_SIZE*PAGESIZE,%a3 |
| |
| L(mmu_mapnext_030): |
| /* Ready with mapping? |
| */ |
| lea %a3@(-1),%a0 |
| cmpl %a0,%a4 |
| jhi L(mmu_map_030) |
| jra L(mmu_map_done) |
| |
| L(mmu_map_error): |
| |
| dputs "mmu_map error:" |
| dputn %a2 |
| dputn %a3 |
| dputc '\n' |
| |
| L(mmu_map_done): |
| |
| func_return mmu_map |
| |
| /* |
| * mmu_fixup |
| * |
| * On the 040 class machines, all pages that are used for the |
| * mmu have to be fixed up. |
| */ |
| |
| func_start mmu_fixup_page_mmu_cache,%d0/%a0 |
| |
| dputs "mmu_fixup_page_mmu_cache" |
| dputn ARG1 |
| |
| /* Calculate the offset into the root table |
| */ |
| movel ARG1,%d0 |
| moveq #ROOT_INDEX_SHIFT,%d1 |
| lsrl %d1,%d0 |
| mmu_get_root_table_entry %d0 |
| |
| /* Calculate the offset into the pointer table |
| */ |
| movel ARG1,%d0 |
| moveq #PTR_INDEX_SHIFT,%d1 |
| lsrl %d1,%d0 |
| andl #PTR_TABLE_SIZE-1,%d0 |
| mmu_get_ptr_table_entry %a0,%d0 |
| |
| /* Calculate the offset into the page table |
| */ |
| movel ARG1,%d0 |
| moveq #PAGE_INDEX_SHIFT,%d1 |
| lsrl %d1,%d0 |
| andl #PAGE_TABLE_SIZE-1,%d0 |
| mmu_get_page_table_entry %a0,%d0 |
| |
| movel %a0@,%d0 |
| andil #_CACHEMASK040,%d0 |
| orl %pc@(m68k_pgtable_cachemode),%d0 |
| movel %d0,%a0@ |
| |
| dputc '\n' |
| |
| func_return mmu_fixup_page_mmu_cache |
| |
| /* |
| * mmu_temp_map |
| * |
| * create a temporary mapping to enable the mmu, |
| * this we don't need any transparation translation tricks. |
| */ |
| |
| func_start mmu_temp_map,%d0/%d1/%a0/%a1 |
| |
| dputs "mmu_temp_map" |
| dputn ARG1 |
| dputn ARG2 |
| dputc '\n' |
| |
| lea %pc@(L(temp_mmap_mem)),%a1 |
| |
| /* Calculate the offset in the root table |
| */ |
| movel ARG2,%d0 |
| moveq #ROOT_INDEX_SHIFT,%d1 |
| lsrl %d1,%d0 |
| mmu_get_root_table_entry %d0 |
| |
| /* Check if the table is temporary allocated, so we have to reuse it |
| */ |
| movel %a0@,%d0 |
| cmpl %pc@(L(memory_start)),%d0 |
| jcc 1f |
| |
| /* Temporary allocate a ptr table and insert it into the root table |
| */ |
| movel %a1@,%d0 |
| addl #PTR_TABLE_SIZE*4,%a1@ |
| orw #_PAGE_TABLE+_PAGE_ACCESSED,%d0 |
| movel %d0,%a0@ |
| dputs " (new)" |
| 1: |
| dputn %d0 |
| /* Mask the root table entry for the ptr table |
| */ |
| andw #-ROOT_TABLE_SIZE,%d0 |
| movel %d0,%a0 |
| |
| /* Calculate the offset into the pointer table |
| */ |
| movel ARG2,%d0 |
| moveq #PTR_INDEX_SHIFT,%d1 |
| lsrl %d1,%d0 |
| andl #PTR_TABLE_SIZE-1,%d0 |
| lea %a0@(%d0*4),%a0 |
| dputn %a0 |
| |
| /* Check if a temporary page table is already allocated |
| */ |
| movel %a0@,%d0 |
| jne 1f |
| |
| /* Temporary allocate a page table and insert it into the ptr table |
| */ |
| movel %a1@,%d0 |
| /* The 512 should be PAGE_TABLE_SIZE*4, but that violates the |
| alignment restriction for pointer tables on the '0[46]0. */ |
| addl #512,%a1@ |
| orw #_PAGE_TABLE+_PAGE_ACCESSED,%d0 |
| movel %d0,%a0@ |
| dputs " (new)" |
| 1: |
| dputn %d0 |
| /* Mask the ptr table entry for the page table |
| */ |
| andw #-PTR_TABLE_SIZE,%d0 |
| movel %d0,%a0 |
| |
| /* Calculate the offset into the page table |
| */ |
| movel ARG2,%d0 |
| moveq #PAGE_INDEX_SHIFT,%d1 |
| lsrl %d1,%d0 |
| andl #PAGE_TABLE_SIZE-1,%d0 |
| lea %a0@(%d0*4),%a0 |
| dputn %a0 |
| |
| /* Insert the address into the page table |
| */ |
| movel ARG1,%d0 |
| andw #-PAGESIZE,%d0 |
| orw #_PAGE_PRESENT+_PAGE_ACCESSED+_PAGE_DIRTY,%d0 |
| movel %d0,%a0@ |
| dputn %d0 |
| |
| dputc '\n' |
| |
| func_return mmu_temp_map |
| |
| func_start mmu_engage,%d0-%d2/%a0-%a3 |
| |
| moveq #ROOT_TABLE_SIZE-1,%d0 |
| /* Temporarily use a different root table. */ |
| lea %pc@(L(kernel_pgdir_ptr)),%a0 |
| movel %a0@,%a2 |
| movel %pc@(L(memory_start)),%a1 |
| movel %a1,%a0@ |
| movel %a2,%a0 |
| 1: |
| movel %a0@+,%a1@+ |
| dbra %d0,1b |
| |
| lea %pc@(L(temp_mmap_mem)),%a0 |
| movel %a1,%a0@ |
| |
| movew #PAGESIZE-1,%d0 |
| 1: |
| clrl %a1@+ |
| dbra %d0,1b |
| |
| lea %pc@(1b),%a0 |
| movel #1b,%a1 |
| /* Skip temp mappings if phys == virt */ |
| cmpl %a0,%a1 |
| jeq 1f |
| |
| mmu_temp_map %a0,%a0 |
| mmu_temp_map %a0,%a1 |
| |
| addw #PAGESIZE,%a0 |
| addw #PAGESIZE,%a1 |
| mmu_temp_map %a0,%a0 |
| mmu_temp_map %a0,%a1 |
| 1: |
| movel %pc@(L(memory_start)),%a3 |
| movel %pc@(L(phys_kernel_start)),%d2 |
| |
| is_not_040_or_060(L(mmu_engage_030)) |
| |
| L(mmu_engage_040): |
| .chip 68040 |
| nop |
| cinva %bc |
| nop |
| pflusha |
| nop |
| movec %a3,%srp |
| movel #TC_ENABLE+TC_PAGE4K,%d0 |
| movec %d0,%tc /* enable the MMU */ |
| jmp 1f:l |
| 1: nop |
| movec %a2,%srp |
| nop |
| cinva %bc |
| nop |
| pflusha |
| .chip 68k |
| jra L(mmu_engage_cleanup) |
| |
| L(mmu_engage_030_temp): |
| .space 12 |
| L(mmu_engage_030): |
| .chip 68030 |
| lea %pc@(L(mmu_engage_030_temp)),%a0 |
| movel #0x80000002,%a0@ |
| movel %a3,%a0@(4) |
| movel #0x0808,%d0 |
| movec %d0,%cacr |
| pmove %a0@,%srp |
| pflusha |
| /* |
| * enable,super root enable,4096 byte pages,7 bit root index, |
| * 7 bit pointer index, 6 bit page table index. |
| */ |
| movel #0x82c07760,%a0@(8) |
| pmove %a0@(8),%tc /* enable the MMU */ |
| jmp 1f:l |
| 1: movel %a2,%a0@(4) |
| movel #0x0808,%d0 |
| movec %d0,%cacr |
| pmove %a0@,%srp |
| pflusha |
| .chip 68k |
| |
| L(mmu_engage_cleanup): |
| subl #PAGE_OFFSET,%d2 |
| subl %d2,%a2 |
| movel %a2,L(kernel_pgdir_ptr) |
| subl %d2,%fp |
| subl %d2,%sp |
| subl %d2,ARG0 |
| |
| func_return mmu_engage |
| |
| func_start mmu_get_root_table_entry,%d0/%a1 |
| |
| #if 0 |
| dputs "mmu_get_root_table_entry:" |
| dputn ARG1 |
| dputs " =" |
| #endif |
| |
| movel %pc@(L(kernel_pgdir_ptr)),%a0 |
| tstl %a0 |
| jne 2f |
| |
| dputs "\nmmu_init:" |
| |
| /* Find the start of free memory, get_bi_record does this for us, |
| * as the bootinfo structure is located directly behind the kernel |
| * and and we simply search for the last entry. |
| */ |
| get_bi_record BI_LAST |
| addw #PAGESIZE-1,%a0 |
| movel %a0,%d0 |
| andw #-PAGESIZE,%d0 |
| |
| dputn %d0 |
| |
| lea %pc@(L(memory_start)),%a0 |
| movel %d0,%a0@ |
| lea %pc@(L(kernel_end)),%a0 |
| movel %d0,%a0@ |
| |
| /* we have to return the first page at _stext since the init code |
| * in mm/init.c simply expects kernel_pg_dir there, the rest of |
| * page is used for further ptr tables in get_ptr_table. |
| */ |
| lea %pc@(_stext),%a0 |
| lea %pc@(L(mmu_cached_pointer_tables)),%a1 |
| movel %a0,%a1@ |
| addl #ROOT_TABLE_SIZE*4,%a1@ |
| |
| lea %pc@(L(mmu_num_pointer_tables)),%a1 |
| addql #1,%a1@ |
| |
| /* clear the page |
| */ |
| movel %a0,%a1 |
| movew #PAGESIZE/4-1,%d0 |
| 1: |
| clrl %a1@+ |
| dbra %d0,1b |
| |
| lea %pc@(L(kernel_pgdir_ptr)),%a1 |
| movel %a0,%a1@ |
| |
| dputn %a0 |
| dputc '\n' |
| 2: |
| movel ARG1,%d0 |
| lea %a0@(%d0*4),%a0 |
| |
| #if 0 |
| dputn %a0 |
| dputc '\n' |
| #endif |
| |
| func_return mmu_get_root_table_entry |
| |
| |
| |
| func_start mmu_get_ptr_table_entry,%d0/%a1 |
| |
| #if 0 |
| dputs "mmu_get_ptr_table_entry:" |
| dputn ARG1 |
| dputn ARG2 |
| dputs " =" |
| #endif |
| |
| movel ARG1,%a0 |
| movel %a0@,%d0 |
| jne 2f |
| |
| /* Keep track of the number of pointer tables we use |
| */ |
| dputs "\nmmu_get_new_ptr_table:" |
| lea %pc@(L(mmu_num_pointer_tables)),%a0 |
| movel %a0@,%d0 |
| addql #1,%a0@ |
| |
| /* See if there is a free pointer table in our cache of pointer tables |
| */ |
| lea %pc@(L(mmu_cached_pointer_tables)),%a1 |
| andw #7,%d0 |
| jne 1f |
| |
| /* Get a new pointer table page from above the kernel memory |
| */ |
| get_new_page |
| movel %a0,%a1@ |
| 1: |
| /* There is an unused pointer table in our cache... use it |
| */ |
| movel %a1@,%d0 |
| addl #PTR_TABLE_SIZE*4,%a1@ |
| |
| dputn %d0 |
| dputc '\n' |
| |
| /* Insert the new pointer table into the root table |
| */ |
| movel ARG1,%a0 |
| orw #_PAGE_TABLE+_PAGE_ACCESSED,%d0 |
| movel %d0,%a0@ |
| 2: |
| /* Extract the pointer table entry |
| */ |
| andw #-PTR_TABLE_SIZE,%d0 |
| movel %d0,%a0 |
| movel ARG2,%d0 |
| lea %a0@(%d0*4),%a0 |
| |
| #if 0 |
| dputn %a0 |
| dputc '\n' |
| #endif |
| |
| func_return mmu_get_ptr_table_entry |
| |
| |
| func_start mmu_get_page_table_entry,%d0/%a1 |
| |
| #if 0 |
| dputs "mmu_get_page_table_entry:" |
| dputn ARG1 |
| dputn ARG2 |
| dputs " =" |
| #endif |
| |
| movel ARG1,%a0 |
| movel %a0@,%d0 |
| jne 2f |
| |
| /* If the page table entry doesn't exist, we allocate a complete new |
| * page and use it as one continues big page table which can cover |
| * 4MB of memory, nearly almost all mappings have that alignment. |
| */ |
| get_new_page |
| addw #_PAGE_TABLE+_PAGE_ACCESSED,%a0 |
| |
| /* align pointer table entry for a page of page tables |
| */ |
| movel ARG1,%d0 |
| andw #-(PAGESIZE/PAGE_TABLE_SIZE),%d0 |
| movel %d0,%a1 |
| |
| /* Insert the page tables into the pointer entries |
| */ |
| moveq #PAGESIZE/PAGE_TABLE_SIZE/4-1,%d0 |
| 1: |
| movel %a0,%a1@+ |
| lea %a0@(PAGE_TABLE_SIZE*4),%a0 |
| dbra %d0,1b |
| |
| /* Now we can get the initialized pointer table entry |
| */ |
| movel ARG1,%a0 |
| movel %a0@,%d0 |
| 2: |
| /* Extract the page table entry |
| */ |
| andw #-PAGE_TABLE_SIZE,%d0 |
| movel %d0,%a0 |
| movel ARG2,%d0 |
| lea %a0@(%d0*4),%a0 |
| |
| #if 0 |
| dputn %a0 |
| dputc '\n' |
| #endif |
| |
| func_return mmu_get_page_table_entry |
| |
| /* |
| * get_new_page |
| * |
| * Return a new page from the memory start and clear it. |
| */ |
| func_start get_new_page,%d0/%a1 |
| |
| dputs "\nget_new_page:" |
| |
| /* allocate the page and adjust memory_start |
| */ |
| lea %pc@(L(memory_start)),%a0 |
| movel %a0@,%a1 |
| addl #PAGESIZE,%a0@ |
| |
| /* clear the new page |
| */ |
| movel %a1,%a0 |
| movew #PAGESIZE/4-1,%d0 |
| 1: |
| clrl %a1@+ |
| dbra %d0,1b |
| |
| dputn %a0 |
| dputc '\n' |
| |
| func_return get_new_page |
| |
| |
| |
| /* |
| * Debug output support |
| * Atarians have a choice between the parallel port, the serial port |
| * from the MFP or a serial port of the SCC |
| */ |
| |
| #ifdef CONFIG_MAC |
| |
| L(scc_initable_mac): |
| .byte 9,12 /* Reset */ |
| .byte 4,0x44 /* x16, 1 stopbit, no parity */ |
| .byte 3,0xc0 /* receiver: 8 bpc */ |
| .byte 5,0xe2 /* transmitter: 8 bpc, assert dtr/rts */ |
| .byte 9,0 /* no interrupts */ |
| .byte 10,0 /* NRZ */ |
| .byte 11,0x50 /* use baud rate generator */ |
| .byte 12,10,13,0 /* 9600 baud */ |
| .byte 14,1 /* Baud rate generator enable */ |
| .byte 3,0xc1 /* enable receiver */ |
| .byte 5,0xea /* enable transmitter */ |
| .byte -1 |
| .even |
| #endif |
| |
| #ifdef CONFIG_ATARI |
| /* #define USE_PRINTER */ |
| /* #define USE_SCC_B */ |
| /* #define USE_SCC_A */ |
| #define USE_MFP |
| |
| #if defined(USE_SCC_A) || defined(USE_SCC_B) |
| #define USE_SCC |
| /* Initialisation table for SCC */ |
| L(scc_initable): |
| .byte 9,12 /* Reset */ |
| .byte 4,0x44 /* x16, 1 stopbit, no parity */ |
| .byte 3,0xc0 /* receiver: 8 bpc */ |
| .byte 5,0xe2 /* transmitter: 8 bpc, assert dtr/rts */ |
| .byte 9,0 /* no interrupts */ |
| .byte 10,0 /* NRZ */ |
| .byte 11,0x50 /* use baud rate generator */ |
| .byte 12,24,13,0 /* 9600 baud */ |
| .byte 14,2,14,3 /* use master clock for BRG, enable */ |
| .byte 3,0xc1 /* enable receiver */ |
| .byte 5,0xea /* enable transmitter */ |
| .byte -1 |
| .even |
| #endif |
| |
| #ifdef USE_PRINTER |
| |
| LPSG_SELECT = 0xff8800 |
| LPSG_READ = 0xff8800 |
| LPSG_WRITE = 0xff8802 |
| LPSG_IO_A = 14 |
| LPSG_IO_B = 15 |
| LPSG_CONTROL = 7 |
| LSTMFP_GPIP = 0xfffa01 |
| LSTMFP_DDR = 0xfffa05 |
| LSTMFP_IERB = 0xfffa09 |
| |
| #elif defined(USE_SCC_B) |
| |
| LSCC_CTRL = 0xff8c85 |
| LSCC_DATA = 0xff8c87 |
| |
| #elif defined(USE_SCC_A) |
| |
| LSCC_CTRL = 0xff8c81 |
| LSCC_DATA = 0xff8c83 |
| |
| #elif defined(USE_MFP) |
| |
| LMFP_UCR = 0xfffa29 |
| LMFP_TDCDR = 0xfffa1d |
| LMFP_TDDR = 0xfffa25 |
| LMFP_TSR = 0xfffa2d |
| LMFP_UDR = 0xfffa2f |
| |
| #endif |
| #endif /* CONFIG_ATARI */ |
| |
| /* |
| * Serial port output support. |
| */ |
| |
| /* |
| * Initialize serial port hardware for 9600/8/1 |
| */ |
| func_start serial_init,%d0/%d1/%a0/%a1 |
| /* |
| * Some of the register usage that follows |
| * CONFIG_AMIGA |
| * a0 = pointer to boot info record |
| * d0 = boot info offset |
| * CONFIG_ATARI |
| * a0 = address of SCC |
| * a1 = Liobase address/address of scc_initable |
| * d0 = init data for serial port |
| * CONFIG_MAC |
| * a0 = address of SCC |
| * a1 = address of scc_initable_mac |
| * d0 = init data for serial port |
| */ |
| |
| #ifdef CONFIG_AMIGA |
| #define SERIAL_DTR 7 |
| #define SERIAL_CNTRL CIABBASE+C_PRA |
| |
| is_not_amiga(1f) |
| lea %pc@(L(custom)),%a0 |
| movel #-ZTWOBASE,%a0@ |
| bclr #SERIAL_DTR,SERIAL_CNTRL-ZTWOBASE |
| get_bi_record BI_AMIGA_SERPER |
| movew %a0@,CUSTOMBASE+C_SERPER-ZTWOBASE |
| | movew #61,CUSTOMBASE+C_SERPER-ZTWOBASE |
| 1: |
| #endif |
| #ifdef CONFIG_ATARI |
| is_not_atari(4f) |
| movel %pc@(L(iobase)),%a1 |
| #if defined(USE_PRINTER) |
| bclr #0,%a1@(LSTMFP_IERB) |
| bclr #0,%a1@(LSTMFP_DDR) |
| moveb #LPSG_CONTROL,%a1@(LPSG_SELECT) |
| moveb #0xff,%a1@(LPSG_WRITE) |
| moveb #LPSG_IO_B,%a1@(LPSG_SELECT) |
| clrb %a1@(LPSG_WRITE) |
| moveb #LPSG_IO_A,%a1@(LPSG_SELECT) |
| moveb %a1@(LPSG_READ),%d0 |
| bset #5,%d0 |
| moveb %d0,%a1@(LPSG_WRITE) |
| #elif defined(USE_SCC) |
| lea %a1@(LSCC_CTRL),%a0 |
| lea %pc@(L(scc_initable)),%a1 |
| 2: moveb %a1@+,%d0 |
| jmi 3f |
| moveb %d0,%a0@ |
| moveb %a1@+,%a0@ |
| jra 2b |
| 3: clrb %a0@ |
| #elif defined(USE_MFP) |
| bclr #1,%a1@(LMFP_TSR) |
| moveb #0x88,%a1@(LMFP_UCR) |
| andb #0x70,%a1@(LMFP_TDCDR) |
| moveb #2,%a1@(LMFP_TDDR) |
| orb #1,%a1@(LMFP_TDCDR) |
| bset #1,%a1@(LMFP_TSR) |
| #endif |
| jra L(serial_init_done) |
| 4: |
| #endif |
| #ifdef CONFIG_MAC |
| is_not_mac(L(serial_init_not_mac)) |
| #ifdef MAC_SERIAL_DEBUG |
| #if !defined(MAC_USE_SCC_A) && !defined(MAC_USE_SCC_B) |
| #define MAC_USE_SCC_B |
| #endif |
| #define mac_scc_cha_b_ctrl_offset 0x0 |
| #define mac_scc_cha_a_ctrl_offset 0x2 |
| #define mac_scc_cha_b_data_offset 0x4 |
| #define mac_scc_cha_a_data_offset 0x6 |
| |
| #ifdef MAC_USE_SCC_A |
| /* Initialize channel A */ |
| movel %pc@(L(mac_sccbase)),%a0 |
| lea %pc@(L(scc_initable_mac)),%a1 |
| 5: moveb %a1@+,%d0 |
| jmi 6f |
| moveb %d0,%a0@(mac_scc_cha_a_ctrl_offset) |
| moveb %a1@+,%a0@(mac_scc_cha_a_ctrl_offset) |
| jra 5b |
| 6: |
| #endif /* MAC_USE_SCC_A */ |
| |
| #ifdef MAC_USE_SCC_B |
| /* Initialize channel B */ |
| #ifndef MAC_USE_SCC_A /* Load mac_sccbase only if needed */ |
| movel %pc@(L(mac_sccbase)),%a0 |
| #endif /* MAC_USE_SCC_A */ |
| lea %pc@(L(scc_initable_mac)),%a1 |
| 7: moveb %a1@+,%d0 |
| jmi 8f |
| moveb %d0,%a0@(mac_scc_cha_b_ctrl_offset) |
| moveb %a1@+,%a0@(mac_scc_cha_b_ctrl_offset) |
| jra 7b |
| 8: |
| #endif /* MAC_USE_SCC_B */ |
| #endif /* MAC_SERIAL_DEBUG */ |
| |
| jra L(serial_init_done) |
| L(serial_init_not_mac): |
| #endif /* CONFIG_MAC */ |
| |
| #ifdef CONFIG_Q40 |
| is_not_q40(2f) |
| /* debug output goes into SRAM, so we don't do it unless requested |
| - check for '%LX$' signature in SRAM */ |
| lea %pc@(q40_mem_cptr),%a1 |
| move.l #0xff020010,%a1@ /* must be inited - also used by debug=mem */ |
| move.l #0xff020000,%a1 |
| cmp.b #'%',%a1@ |
| bne 2f /*nodbg*/ |
| addq.w #4,%a1 |
| cmp.b #'L',%a1@ |
| bne 2f /*nodbg*/ |
| addq.w #4,%a1 |
| cmp.b #'X',%a1@ |
| bne 2f /*nodbg*/ |
| addq.w #4,%a1 |
| cmp.b #'$',%a1@ |
| bne 2f /*nodbg*/ |
| /* signature OK */ |
| lea %pc@(L(q40_do_debug)),%a1 |
| tas %a1@ |
| /*nodbg: q40_do_debug is 0 by default*/ |
| 2: |
| #endif |
| |
| #ifdef CONFIG_APOLLO |
| /* We count on the PROM initializing SIO1 */ |
| #endif |
| |
| #ifdef CONFIG_HP300 |
| /* We count on the boot loader initialising the UART */ |
| #endif |
| |
| L(serial_init_done): |
| func_return serial_init |
| |
| /* |
| * Output character on serial port. |
| */ |
| func_start serial_putc,%d0/%d1/%a0/%a1 |
| |
| movel ARG1,%d0 |
| cmpib #'\n',%d0 |
| jbne 1f |
| |
| /* A little safe recursion is good for the soul */ |
| serial_putc #'\r' |
| 1: |
| |
| #ifdef CONFIG_AMIGA |
| is_not_amiga(2f) |
| andw #0x00ff,%d0 |
| oriw #0x0100,%d0 |
| movel %pc@(L(custom)),%a0 |
| movew %d0,%a0@(CUSTOMBASE+C_SERDAT) |
| 1: movew %a0@(CUSTOMBASE+C_SERDATR),%d0 |
| andw #0x2000,%d0 |
| jeq 1b |
| jra L(serial_putc_done) |
| 2: |
| #endif |
| |
| #ifdef CONFIG_MAC |
| is_not_mac(5f) |
| |
| #ifdef MAC_SERIAL_DEBUG |
| |
| #ifdef MAC_USE_SCC_A |
| movel %pc@(L(mac_sccbase)),%a1 |
| 3: btst #2,%a1@(mac_scc_cha_a_ctrl_offset) |
| jeq 3b |
| moveb %d0,%a1@(mac_scc_cha_a_data_offset) |
| #endif /* MAC_USE_SCC_A */ |
| |
| #ifdef MAC_USE_SCC_B |
| #ifndef MAC_USE_SCC_A /* Load mac_sccbase only if needed */ |
| movel %pc@(L(mac_sccbase)),%a1 |
| #endif /* MAC_USE_SCC_A */ |
| 4: btst #2,%a1@(mac_scc_cha_b_ctrl_offset) |
| jeq 4b |
| moveb %d0,%a1@(mac_scc_cha_b_data_offset) |
| #endif /* MAC_USE_SCC_B */ |
| |
| #endif /* MAC_SERIAL_DEBUG */ |
| |
| jra L(serial_putc_done) |
| 5: |
| #endif /* CONFIG_MAC */ |
| |
| #ifdef CONFIG_ATARI |
| is_not_atari(4f) |
| movel %pc@(L(iobase)),%a1 |
| #if defined(USE_PRINTER) |
| 3: btst #0,%a1@(LSTMFP_GPIP) |
| jne 3b |
| moveb #LPSG_IO_B,%a1@(LPSG_SELECT) |
| moveb %d0,%a1@(LPSG_WRITE) |
| moveb #LPSG_IO_A,%a1@(LPSG_SELECT) |
| moveb %a1@(LPSG_READ),%d0 |
| bclr #5,%d0 |
| moveb %d0,%a1@(LPSG_WRITE) |
| nop |
| nop |
| bset #5,%d0 |
| moveb %d0,%a1@(LPSG_WRITE) |
| #elif defined(USE_SCC) |
| 3: btst #2,%a1@(LSCC_CTRL) |
| jeq 3b |
| moveb %d0,%a1@(LSCC_DATA) |
| #elif defined(USE_MFP) |
| 3: btst #7,%a1@(LMFP_TSR) |
| jeq 3b |
| moveb %d0,%a1@(LMFP_UDR) |
| #endif |
| jra L(serial_putc_done) |
| 4: |
| #endif /* CONFIG_ATARI */ |
| |
| #ifdef CONFIG_MVME147 |
| is_not_mvme147(2f) |
| 1: btst #2,M147_SCC_CTRL_A |
| jeq 1b |
| moveb %d0,M147_SCC_DATA_A |
| jbra L(serial_putc_done) |
| 2: |
| #endif |
| |
| #ifdef CONFIG_MVME16x |
| is_not_mvme16x(2f) |
| /* |
| * If the loader gave us a board type then we can use that to |
| * select an appropriate output routine; otherwise we just use |
| * the Bug code. If we haev to use the Bug that means the Bug |
| * workspace has to be valid, which means the Bug has to use |
| * the SRAM, which is non-standard. |
| */ |
| moveml %d0-%d7/%a2-%a6,%sp@- |
| movel vme_brdtype,%d1 |
| jeq 1f | No tag - use the Bug |
| cmpi #VME_TYPE_MVME162,%d1 |
| jeq 6f |
| cmpi #VME_TYPE_MVME172,%d1 |
| jne 5f |
| /* 162/172; it's an SCC */ |
| 6: btst #2,M162_SCC_CTRL_A |
| nop |
| nop |
| nop |
| jeq 6b |
| moveb #8,M162_SCC_CTRL_A |
| nop |
| nop |
| nop |
| moveb %d0,M162_SCC_CTRL_A |
| jra 3f |
| 5: |
| /* 166/167/177; it's a CD2401 */ |
| moveb #0,M167_CYCAR |
| moveb M167_CYIER,%d2 |
| moveb #0x02,M167_CYIER |
| 7: |
| btst #5,M167_PCSCCTICR |
| jeq 7b |
| moveb M167_PCTPIACKR,%d1 |
| moveb M167_CYLICR,%d1 |
| jeq 8f |
| moveb #0x08,M167_CYTEOIR |
| jra 7b |
| 8: |
| moveb %d0,M167_CYTDR |
| moveb #0,M167_CYTEOIR |
| moveb %d2,M167_CYIER |
| jra 3f |
| 1: |
| moveb %d0,%sp@- |
| trap #15 |
| .word 0x0020 /* TRAP 0x020 */ |
| 3: |
| moveml %sp@+,%d0-%d7/%a2-%a6 |
| jbra L(serial_putc_done) |
| 2: |
| #endif /* CONFIG_MVME16x */ |
| |
| #ifdef CONFIG_BVME6000 |
| is_not_bvme6000(2f) |
| /* |
| * The BVME6000 machine has a serial port ... |
| */ |
| 1: btst #2,BVME_SCC_CTRL_A |
| jeq 1b |
| moveb %d0,BVME_SCC_DATA_A |
| jbra L(serial_putc_done) |
| 2: |
| #endif |
| |
| #ifdef CONFIG_SUN3X |
| is_not_sun3x(2f) |
| movel %d0,-(%sp) |
| movel 0xFEFE0018,%a1 |
| jbsr (%a1) |
| addq #4,%sp |
| jbra L(serial_putc_done) |
| 2: |
| #endif |
| |
| #ifdef CONFIG_Q40 |
| is_not_q40(2f) |
| tst.l %pc@(L(q40_do_debug)) /* only debug if requested */ |
| beq 2f |
| lea %pc@(q40_mem_cptr),%a1 |
| move.l %a1@,%a0 |
| move.b %d0,%a0@ |
| addq.l #4,%a0 |
| move.l %a0,%a1@ |
| jbra L(serial_putc_done) |
| 2: |
| #endif |
| |
| #ifdef CONFIG_APOLLO |
| is_not_apollo(2f) |
| movl %pc@(L(iobase)),%a1 |
| moveb %d0,%a1@(LTHRB0) |
| 1: moveb %a1@(LSRB0),%d0 |
| andb #0x4,%d0 |
| beq 1b |
| jbra L(serial_putc_done) |
| 2: |
| #endif |
| |
| #ifdef CONFIG_HP300 |
| is_not_hp300(3f) |
| movl %pc@(L(iobase)),%a1 |
| addl %pc@(L(uartbase)),%a1 |
| movel %pc@(L(uart_scode)),%d1 /* Check the scode */ |
| jmi 3f /* Unset? Exit */ |
| cmpi #256,%d1 /* APCI scode? */ |
| jeq 2f |
| 1: moveb %a1@(DCALSR),%d1 /* Output to DCA */ |
| andb #0x20,%d1 |
| beq 1b |
| moveb %d0,%a1@(DCADATA) |
| jbra L(serial_putc_done) |
| 2: moveb %a1@(APCILSR),%d1 /* Output to APCI */ |
| andb #0x20,%d1 |
| beq 2b |
| moveb %d0,%a1@(APCIDATA) |
| jbra L(serial_putc_done) |
| 3: |
| #endif |
| |
| L(serial_putc_done): |
| func_return serial_putc |
| |
| /* |
| * Output a string. |
| */ |
| func_start puts,%d0/%a0 |
| |
| movel ARG1,%a0 |
| jra 2f |
| 1: |
| #ifdef CONSOLE |
| console_putc %d0 |
| #endif |
| #ifdef SERIAL_DEBUG |
| serial_putc %d0 |
| #endif |
| 2: moveb %a0@+,%d0 |
| jne 1b |
| |
| func_return puts |
| |
| /* |
| * Output number in hex notation. |
| */ |
| |
| func_start putn,%d0-%d2 |
| |
| putc ' ' |
| |
| movel ARG1,%d0 |
| moveq #7,%d1 |
| 1: roll #4,%d0 |
| move %d0,%d2 |
| andb #0x0f,%d2 |
| addb #'0',%d2 |
| cmpb #'9',%d2 |
| jls 2f |
| addb #'A'-('9'+1),%d2 |
| 2: |
| #ifdef CONSOLE |
| console_putc %d2 |
| #endif |
| #ifdef SERIAL_DEBUG |
| serial_putc %d2 |
| #endif |
| dbra %d1,1b |
| |
| func_return putn |
| |
| #ifdef CONFIG_MAC |
| /* |
| * mac_serial_print |
| * |
| * This routine takes its parameters on the stack. It then |
| * turns around and calls the internal routine. This routine |
| * is used until the Linux console driver initializes itself. |
| * |
| * The calling parameters are: |
| * void mac_serial_print(const char *str); |
| * |
| * This routine does NOT understand variable arguments only |
| * simple strings! |
| */ |
| ENTRY(mac_serial_print) |
| moveml %d0/%a0,%sp@- |
| #if 1 |
| move %sr,%sp@- |
| ori #0x0700,%sr |
| #endif |
| movel %sp@(10),%a0 /* fetch parameter */ |
| jra 2f |
| 1: serial_putc %d0 |
| 2: moveb %a0@+,%d0 |
| jne 1b |
| #if 1 |
| move %sp@+,%sr |
| #endif |
| moveml %sp@+,%d0/%a0 |
| rts |
| #endif /* CONFIG_MAC */ |
| |
| #if defined(CONFIG_HP300) || defined(CONFIG_APOLLO) |
| func_start set_leds,%d0/%a0 |
| movel ARG1,%d0 |
| #ifdef CONFIG_HP300 |
| is_not_hp300(1f) |
| movel %pc@(L(iobase)),%a0 |
| moveb %d0,%a0@(0x1ffff) |
| jra 2f |
| #endif |
| 1: |
| #ifdef CONFIG_APOLLO |
| movel %pc@(L(iobase)),%a0 |
| lsll #8,%d0 |
| eorw #0xff00,%d0 |
| moveb %d0,%a0@(LCPUCTRL) |
| #endif |
| 2: |
| func_return set_leds |
| #endif |
| |
| #ifdef CONSOLE |
| /* |
| * For continuity, see the data alignment |
| * to which this structure is tied. |
| */ |
| #define Lconsole_struct_cur_column 0 |
| #define Lconsole_struct_cur_row 4 |
| #define Lconsole_struct_num_columns 8 |
| #define Lconsole_struct_num_rows 12 |
| #define Lconsole_struct_left_edge 16 |
| #define Lconsole_struct_penguin_putc 20 |
| |
| func_start console_init,%a0-%a4/%d0-%d7 |
| /* |
| * Some of the register usage that follows |
| * a0 = pointer to boot_info |
| * a1 = pointer to screen |
| * a2 = pointer to Lconsole_globals |
| * d3 = pixel width of screen |
| * d4 = pixel height of screen |
| * (d3,d4) ~= (x,y) of a point just below |
| * and to the right of the screen |
| * NOT on the screen! |
| * d5 = number of bytes per scan line |
| * d6 = number of bytes on the entire screen |
| */ |
| |
| lea %pc@(L(console_globals)),%a2 |
| movel %pc@(L(mac_videobase)),%a1 |
| movel %pc@(L(mac_rowbytes)),%d5 |
| movel %pc@(L(mac_dimensions)),%d3 /* -> low byte */ |
| movel %d3,%d4 |
| swap %d4 /* -> high byte */ |
| andl #0xffff,%d3 /* d3 = screen width in pixels */ |
| andl #0xffff,%d4 /* d4 = screen height in pixels */ |
| |
| movel %d5,%d6 |
| | subl #20,%d6 |
| mulul %d4,%d6 /* scan line bytes x num scan lines */ |
| divul #8,%d6 /* we'll clear 8 bytes at a time */ |
| moveq #-1,%d0 /* Mac_black */ |
| subq #1,%d6 |
| |
| L(console_clear_loop): |
| movel %d0,%a1@+ |
| movel %d0,%a1@+ |
| dbra %d6,L(console_clear_loop) |
| |
| /* Calculate font size */ |
| |
| #if defined(FONT_8x8) && defined(CONFIG_FONT_8x8) |
| lea %pc@(font_vga_8x8),%a0 |
| #elif defined(FONT_8x16) && defined(CONFIG_FONT_8x16) |
| lea %pc@(font_vga_8x16),%a0 |
| #elif defined(FONT_6x11) && defined(CONFIG_FONT_6x11) |
| lea %pc@(font_vga_6x11),%a0 |
| #elif defined(CONFIG_FONT_8x8) /* default */ |
| lea %pc@(font_vga_8x8),%a0 |
| #else /* no compiled-in font */ |
| lea 0,%a0 |
| #endif |
| |
| /* |
| * At this point we make a shift in register usage |
| * a1 = address of console_font pointer |
| */ |
| lea %pc@(L(console_font)),%a1 |
| movel %a0,%a1@ /* store pointer to struct fbcon_font_desc in console_font */ |
| tstl %a0 |
| jeq 1f |
| lea %pc@(L(console_font_data)),%a4 |
| movel %a0@(FONT_DESC_DATA),%d0 |
| subl #L(console_font),%a1 |
| addl %a1,%d0 |
| movel %d0,%a4@ |
| |
| /* |
| * Calculate global maxs |
| * Note - we can use either an |
| * 8 x 16 or 8 x 8 character font |
| * 6 x 11 also supported |
| */ |
| /* ASSERT: a0 = contents of Lconsole_font */ |
| movel %d3,%d0 /* screen width in pixels */ |
| divul %a0@(FONT_DESC_WIDTH),%d0 /* d0 = max num chars per row */ |
| |
| movel %d4,%d1 /* screen height in pixels */ |
| divul %a0@(FONT_DESC_HEIGHT),%d1 /* d1 = max num rows */ |
| |
| movel %d0,%a2@(Lconsole_struct_num_columns) |
| movel %d1,%a2@(Lconsole_struct_num_rows) |
| |
| /* |
| * Clear the current row and column |
| */ |
| clrl %a2@(Lconsole_struct_cur_column) |
| clrl %a2@(Lconsole_struct_cur_row) |
| clrl %a2@(Lconsole_struct_left_edge) |
| |
| /* |
| * Initialization is complete |
| */ |
| 1: |
| func_return console_init |
| |
| func_start console_put_stats,%a0/%d7 |
| /* |
| * Some of the register usage that follows |
| * a0 = pointer to boot_info |
| * d7 = value of boot_info fields |
| */ |
| puts "\nMacLinux\n\n" |
| |
| #ifdef SERIAL_DEBUG |
| puts " vidaddr:" |
| putn %pc@(L(mac_videobase)) /* video addr. */ |
| |
| puts "\n _stext:" |
| lea %pc@(_stext),%a0 |
| putn %a0 |
| |
| puts "\nbootinfo:" |
| lea %pc@(_end),%a0 |
| putn %a0 |
| |
| puts "\ncpuid:" |
| putn %pc@(L(cputype)) |
| putc '\n' |
| |
| #ifdef MAC_SERIAL_DEBUG |
| putn %pc@(L(mac_sccbase)) |
| putc '\n' |
| #endif |
| # if defined(MMU_PRINT) |
| jbsr mmu_print_machine_cpu_types |
| # endif /* MMU_PRINT */ |
| #endif /* SERIAL_DEBUG */ |
| |
| func_return console_put_stats |
| |
| #ifdef CONSOLE_PENGUIN |
| func_start console_put_penguin,%a0-%a1/%d0-%d7 |
| /* |
| * Get 'that_penguin' onto the screen in the upper right corner |
| * penguin is 64 x 74 pixels, align against right edge of screen |
| */ |
| lea %pc@(L(mac_dimensions)),%a0 |
| movel %a0@,%d0 |
| andil #0xffff,%d0 |
| subil #64,%d0 /* snug up against the right edge */ |
| clrl %d1 /* start at the top */ |
| movel #73,%d7 |
| lea %pc@(L(that_penguin)),%a1 |
| L(console_penguin_row): |
| movel #31,%d6 |
| L(console_penguin_pixel_pair): |
| moveb %a1@,%d2 |
| lsrb #4,%d2 |
| console_plot_pixel %d0,%d1,%d2 |
| addq #1,%d0 |
| moveb %a1@+,%d2 |
| console_plot_pixel %d0,%d1,%d2 |
| addq #1,%d0 |
| dbra %d6,L(console_penguin_pixel_pair) |
| |
| subil #64,%d0 |
| addq #1,%d1 |
| dbra %d7,L(console_penguin_row) |
| |
| func_return console_put_penguin |
| |
| /* include penguin bitmap */ |
| L(that_penguin): |
| #include "../mac/mac_penguin.S" |
| #endif |
| |
| /* |
| * Calculate source and destination addresses |
| * output a1 = dest |
| * a2 = source |
| */ |
| |
| func_start console_scroll,%a0-%a4/%d0-%d7 |
| lea %pc@(L(mac_videobase)),%a0 |
| movel %a0@,%a1 |
| movel %a1,%a2 |
| lea %pc@(L(mac_rowbytes)),%a0 |
| movel %a0@,%d5 |
| movel %pc@(L(console_font)),%a0 |
| tstl %a0 |
| jeq 1f |
| mulul %a0@(FONT_DESC_HEIGHT),%d5 /* account for # scan lines per character */ |
| addal %d5,%a2 |
| |
| /* |
| * Get dimensions |
| */ |
| lea %pc@(L(mac_dimensions)),%a0 |
| movel %a0@,%d3 |
| movel %d3,%d4 |
| swap %d4 |
| andl #0xffff,%d3 /* d3 = screen width in pixels */ |
| andl #0xffff,%d4 /* d4 = screen height in pixels */ |
| |
| /* |
| * Calculate number of bytes to move |
| */ |
| lea %pc@(L(mac_rowbytes)),%a0 |
| movel %a0@,%d6 |
| movel %pc@(L(console_font)),%a0 |
| subl %a0@(FONT_DESC_HEIGHT),%d4 /* we're not scrolling the top row! */ |
| mulul %d4,%d6 /* scan line bytes x num scan lines */ |
| divul #32,%d6 /* we'll move 8 longs at a time */ |
| subq #1,%d6 |
| |
| L(console_scroll_loop): |
| movel %a2@+,%a1@+ |
| movel %a2@+,%a1@+ |
| movel %a2@+,%a1@+ |
| movel %a2@+,%a1@+ |
| movel %a2@+,%a1@+ |
| movel %a2@+,%a1@+ |
| movel %a2@+,%a1@+ |
| movel %a2@+,%a1@+ |
| dbra %d6,L(console_scroll_loop) |
| |
| lea %pc@(L(mac_rowbytes)),%a0 |
| movel %a0@,%d6 |
| movel %pc@(L(console_font)),%a0 |
| mulul %a0@(FONT_DESC_HEIGHT),%d6 /* scan line bytes x font height */ |
| divul #32,%d6 /* we'll move 8 words at a time */ |
| subq #1,%d6 |
| |
| moveq #-1,%d0 |
| L(console_scroll_clear_loop): |
| movel %d0,%a1@+ |
| movel %d0,%a1@+ |
| movel %d0,%a1@+ |
| movel %d0,%a1@+ |
| movel %d0,%a1@+ |
| movel %d0,%a1@+ |
| movel %d0,%a1@+ |
| movel %d0,%a1@+ |
| dbra %d6,L(console_scroll_clear_loop) |
| |
| 1: |
| func_return console_scroll |
| |
| |
| func_start console_putc,%a0/%a1/%d0-%d7 |
| |
| is_not_mac(L(console_exit)) |
| tstl %pc@(L(console_font)) |
| jeq L(console_exit) |
| |
| /* Output character in d7 on console. |
| */ |
| movel ARG1,%d7 |
| cmpib #'\n',%d7 |
| jbne 1f |
| |
| /* A little safe recursion is good for the soul */ |
| console_putc #'\r' |
| 1: |
| lea %pc@(L(console_globals)),%a0 |
| |
| cmpib #10,%d7 |
| jne L(console_not_lf) |
| movel %a0@(Lconsole_struct_cur_row),%d0 |
| addil #1,%d0 |
| movel %d0,%a0@(Lconsole_struct_cur_row) |
| movel %a0@(Lconsole_struct_num_rows),%d1 |
| cmpl %d1,%d0 |
| jcs 1f |
| subil #1,%d0 |
| movel %d0,%a0@(Lconsole_struct_cur_row) |
| console_scroll |
| 1: |
| jra L(console_exit) |
| |
| L(console_not_lf): |
| cmpib #13,%d7 |
| jne L(console_not_cr) |
| clrl %a0@(Lconsole_struct_cur_column) |
| jra L(console_exit) |
| |
| L(console_not_cr): |
| cmpib #1,%d7 |
| jne L(console_not_home) |
| clrl %a0@(Lconsole_struct_cur_row) |
| clrl %a0@(Lconsole_struct_cur_column) |
| jra L(console_exit) |
| |
| /* |
| * At this point we know that the %d7 character is going to be |
| * rendered on the screen. Register usage is - |
| * a0 = pointer to console globals |
| * a1 = font data |
| * d0 = cursor column |
| * d1 = cursor row to draw the character |
| * d7 = character number |
| */ |
| L(console_not_home): |
| movel %a0@(Lconsole_struct_cur_column),%d0 |
| addql #1,%a0@(Lconsole_struct_cur_column) |
| movel %a0@(Lconsole_struct_num_columns),%d1 |
| cmpl %d1,%d0 |
| jcs 1f |
| console_putc #'\n' /* recursion is OK! */ |
| 1: |
| movel %a0@(Lconsole_struct_cur_row),%d1 |
| |
| /* |
| * At this point we make a shift in register usage |
| * a0 = address of pointer to font data (fbcon_font_desc) |
| */ |
| movel %pc@(L(console_font)),%a0 |
| movel %pc@(L(console_font_data)),%a1 /* Load fbcon_font_desc.data into a1 */ |
| andl #0x000000ff,%d7 |
| /* ASSERT: a0 = contents of Lconsole_font */ |
| mulul %a0@(FONT_DESC_HEIGHT),%d7 /* d7 = index into font data */ |
| addl %d7,%a1 /* a1 = points to char image */ |
| |
| /* |
| * At this point we make a shift in register usage |
| * d0 = pixel coordinate, x |
| * d1 = pixel coordinate, y |
| * d2 = (bit 0) 1/0 for white/black (!) pixel on screen |
| * d3 = font scan line data (8 pixels) |
| * d6 = count down for the font's pixel width (8) |
| * d7 = count down for the font's pixel count in height |
| */ |
| /* ASSERT: a0 = contents of Lconsole_font */ |
| mulul %a0@(FONT_DESC_WIDTH),%d0 |
| mulul %a0@(FONT_DESC_HEIGHT),%d1 |
| movel %a0@(FONT_DESC_HEIGHT),%d7 /* Load fbcon_font_desc.height into d7 */ |
| subq #1,%d7 |
| L(console_read_char_scanline): |
| moveb %a1@+,%d3 |
| |
| /* ASSERT: a0 = contents of Lconsole_font */ |
| movel %a0@(FONT_DESC_WIDTH),%d6 /* Load fbcon_font_desc.width into d6 */ |
| subql #1,%d6 |
| |
| L(console_do_font_scanline): |
| lslb #1,%d3 |
| scsb %d2 /* convert 1 bit into a byte */ |
| console_plot_pixel %d0,%d1,%d2 |
| addq #1,%d0 |
| dbra %d6,L(console_do_font_scanline) |
| |
| /* ASSERT: a0 = contents of Lconsole_font */ |
| subl %a0@(FONT_DESC_WIDTH),%d0 |
| addq #1,%d1 |
| dbra %d7,L(console_read_char_scanline) |
| |
| L(console_exit): |
| func_return console_putc |
| |
| /* |
| * Input: |
| * d0 = x coordinate |
| * d1 = y coordinate |
| * d2 = (bit 0) 1/0 for white/black (!) |
| * All registers are preserved |
| */ |
| func_start console_plot_pixel,%a0-%a1/%d0-%d4 |
| |
| movel %pc@(L(mac_videobase)),%a1 |
| movel %pc@(L(mac_videodepth)),%d3 |
| movel ARG1,%d0 |
| movel ARG2,%d1 |
| mulul %pc@(L(mac_rowbytes)),%d1 |
| movel ARG3,%d2 |
| |
| /* |
| * Register usage: |
| * d0 = x coord becomes byte offset into frame buffer |
| * d1 = y coord |
| * d2 = black or white (0/1) |
| * d3 = video depth |
| * d4 = temp of x (d0) for many bit depths |
| */ |
| L(test_1bit): |
| cmpb #1,%d3 |
| jbne L(test_2bit) |
| movel %d0,%d4 /* we need the low order 3 bits! */ |
| divul #8,%d0 |
| addal %d0,%a1 |
| addal %d1,%a1 |
| andb #7,%d4 |
| eorb #7,%d4 /* reverse the x-coordinate w/ screen-bit # */ |
| andb #1,%d2 |
| jbne L(white_1) |
| bsetb %d4,%a1@ |
| jbra L(console_plot_pixel_exit) |
| L(white_1): |
| bclrb %d4,%a1@ |
| jbra L(console_plot_pixel_exit) |
| |
| L(test_2bit): |
| cmpb #2,%d3 |
| jbne L(test_4bit) |
| movel %d0,%d4 /* we need the low order 2 bits! */ |
| divul #4,%d0 |
| addal %d0,%a1 |
| addal %d1,%a1 |
| andb #3,%d4 |
| eorb #3,%d4 /* reverse the x-coordinate w/ screen-bit # */ |
| lsll #1,%d4 /* ! */ |
| andb #1,%d2 |
| jbne L(white_2) |
| bsetb %d4,%a1@ |
| addq #1,%d4 |
| bsetb %d4,%a1@ |
| jbra L(console_plot_pixel_exit) |
| L(white_2): |
| bclrb %d4,%a1@ |
| addq #1,%d4 |
| bclrb %d4,%a1@ |
| jbra L(console_plot_pixel_exit) |
| |
| L(test_4bit): |
| cmpb #4,%d3 |
| jbne L(test_8bit) |
| movel %d0,%d4 /* we need the low order bit! */ |
| divul #2,%d0 |
| addal %d0,%a1 |
| addal %d1,%a1 |
| andb #1,%d4 |
| eorb #1,%d4 |
| lsll #2,%d4 /* ! */ |
| andb #1,%d2 |
| jbne L(white_4) |
| bsetb %d4,%a1@ |
| addq #1,%d4 |
| bsetb %d4,%a1@ |
| addq #1,%d4 |
| bsetb %d4,%a1@ |
| addq #1,%d4 |
| bsetb %d4,%a1@ |
| jbra L(console_plot_pixel_exit) |
| L(white_4): |
| bclrb %d4,%a1@ |
| addq #1,%d4 |
| bclrb %d4,%a1@ |
| addq #1,%d4 |
| bclrb %d4,%a1@ |
| addq #1,%d4 |
| bclrb %d4,%a1@ |
| jbra L(console_plot_pixel_exit) |
| |
| L(test_8bit): |
| cmpb #8,%d3 |
| jbne L(test_16bit) |
| addal %d0,%a1 |
| addal %d1,%a1 |
| andb #1,%d2 |
| jbne L(white_8) |
| moveb #0xff,%a1@ |
| jbra L(console_plot_pixel_exit) |
| L(white_8): |
| clrb %a1@ |
| jbra L(console_plot_pixel_exit) |
| |
| L(test_16bit): |
| cmpb #16,%d3 |
| jbne L(console_plot_pixel_exit) |
| addal %d0,%a1 |
| addal %d0,%a1 |
| addal %d1,%a1 |
| andb #1,%d2 |
| jbne L(white_16) |
| clrw %a1@ |
| jbra L(console_plot_pixel_exit) |
| L(white_16): |
| movew #0x0fff,%a1@ |
| jbra L(console_plot_pixel_exit) |
| |
| L(console_plot_pixel_exit): |
| func_return console_plot_pixel |
| #endif /* CONSOLE */ |
| |
| #if 0 |
| /* |
| * This is some old code lying around. I don't believe |
| * it's used or important anymore. My guess is it contributed |
| * to getting to this point, but it's done for now. |
| * It was still in the 2.1.77 head.S, so it's still here. |
| * (And still not used!) |
| */ |
| L(showtest): |
| moveml %a0/%d7,%sp@- |
| puts "A=" |
| putn %a1 |
| |
| .long 0xf0119f15 | ptestr #5,%a1@,#7,%a0 |
| |
| puts "DA=" |
| putn %a0 |
| |
| puts "D=" |
| putn %a0@ |
| |
| puts "S=" |
| lea %pc@(L(mmu)),%a0 |
| .long 0xf0106200 | pmove %psr,%a0@ |
| clrl %d7 |
| movew %a0@,%d7 |
| putn %d7 |
| |
| putc '\n' |
| moveml %sp@+,%a0/%d7 |
| rts |
| #endif /* 0 */ |
| |
| __INITDATA |
| .align 4 |
| |
| #if defined(CONFIG_ATARI) || defined(CONFIG_AMIGA) || \ |
| defined(CONFIG_HP300) || defined(CONFIG_APOLLO) |
| L(custom): |
| L(iobase): |
| .long 0 |
| #endif |
| |
| #if defined(CONSOLE) |
| L(console_globals): |
| .long 0 /* cursor column */ |
| .long 0 /* cursor row */ |
| .long 0 /* max num columns */ |
| .long 0 /* max num rows */ |
| .long 0 /* left edge */ |
| .long 0 /* mac putc */ |
| L(console_font): |
| .long 0 /* pointer to console font (struct font_desc) */ |
| L(console_font_data): |
| .long 0 /* pointer to console font data */ |
| #endif /* CONSOLE */ |
| |
| #if defined(MMU_PRINT) |
| L(mmu_print_data): |
| .long 0 /* valid flag */ |
| .long 0 /* start logical */ |
| .long 0 /* next logical */ |
| .long 0 /* start physical */ |
| .long 0 /* next physical */ |
| #endif /* MMU_PRINT */ |
| |
| L(cputype): |
| .long 0 |
| L(mmu_cached_pointer_tables): |
| .long 0 |
| L(mmu_num_pointer_tables): |
| .long 0 |
| L(phys_kernel_start): |
| .long 0 |
| L(kernel_end): |
| .long 0 |
| L(memory_start): |
| .long 0 |
| L(kernel_pgdir_ptr): |
| .long 0 |
| L(temp_mmap_mem): |
| .long 0 |
| |
| #if defined (CONFIG_MVME147) |
| M147_SCC_CTRL_A = 0xfffe3002 |
| M147_SCC_DATA_A = 0xfffe3003 |
| #endif |
| |
| #if defined (CONFIG_MVME16x) |
| M162_SCC_CTRL_A = 0xfff45005 |
| M167_CYCAR = 0xfff450ee |
| M167_CYIER = 0xfff45011 |
| M167_CYLICR = 0xfff45026 |
| M167_CYTEOIR = 0xfff45085 |
| M167_CYTDR = 0xfff450f8 |
| M167_PCSCCTICR = 0xfff4201e |
| M167_PCTPIACKR = 0xfff42025 |
| #endif |
| |
| #if defined (CONFIG_BVME6000) |
| BVME_SCC_CTRL_A = 0xffb0000b |
| BVME_SCC_DATA_A = 0xffb0000f |
| #endif |
| |
| #if defined(CONFIG_MAC) |
| L(mac_booter_data): |
| .long 0 |
| L(mac_videobase): |
| .long 0 |
| L(mac_videodepth): |
| .long 0 |
| L(mac_dimensions): |
| .long 0 |
| L(mac_rowbytes): |
| .long 0 |
| #ifdef MAC_SERIAL_DEBUG |
| L(mac_sccbase): |
| .long 0 |
| #endif /* MAC_SERIAL_DEBUG */ |
| #endif |
| |
| #if defined (CONFIG_APOLLO) |
| LSRB0 = 0x10412 |
| LTHRB0 = 0x10416 |
| LCPUCTRL = 0x10100 |
| #endif |
| |
| #if defined(CONFIG_HP300) |
| DCADATA = 0x11 |
| DCALSR = 0x1b |
| APCIDATA = 0x00 |
| APCILSR = 0x14 |
| L(uartbase): |
| .long 0 |
| L(uart_scode): |
| .long -1 |
| #endif |
| |
| __FINIT |
| .data |
| .align 4 |
| |
| availmem: |
| .long 0 |
| m68k_pgtable_cachemode: |
| .long 0 |
| m68k_supervisor_cachemode: |
| .long 0 |
| #if defined(CONFIG_MVME16x) |
| mvme_bdid: |
| .long 0,0,0,0,0,0,0,0 |
| #endif |
| #if defined(CONFIG_Q40) |
| q40_mem_cptr: |
| .long 0 |
| L(q40_do_debug): |
| .long 0 |
| #endif |