source: trunk/softs/tsar_boot/src/reset.S @ 654

Last change on this file since 654 was 653, checked in by cfuguet, 11 years ago

Introducing a RAMDISK driver in the preloader.

When using RAMDISK, execute the make command with the flags
SOCLIB=1 and RAMDISK=1. The RDK_PADDR_BASE variable must
also be set on the conf/<platform>/defs_platform.h

These modifications are backward compatibles. Therefore,
when no using RAMDISK, none modifications applied on the
platform configuration file.

File size: 8.0 KB
RevLine 
[586]1/*
[292]2 * \file  : reset.S
3 * \date  : 01/12/2012
4 * \author: Cesar FUGUET & Manuel BOUYER & Alain Greiner
5 *
[586]6 * This is a generic reset code for a generic multi-clusters / multi-processors
7 * TSAR architecture (up to 256 clusters / up to 4  processors per cluster).
[292]8 *
[586]9 * There is one XICU, one TTY, one DMA, and one memory bank per cluster.
10 *
11 * This preloader uses a stack segment allocated in cluster 0, defined
12 * by the seg_reset_stack_base and seg_reset_stack_size parameters in ldscript.
13 * - Processor 0 uses a larger stack:         64 Kbytes.
14 * - Other processors use a smaller stack:    512 bytes.
15 *     => the seg_stack_size cannot be smaller than 0x90000 bytes (576 K).
16 * Those stacks can be used by both the preloader and the boot-loader code.
17 *
18 * The replicated XICU is used to awake the sleeping processors:
[606]19 *      xicu_paddr_base = ICU_PADDR_BASE + (cluster_xy << 32)
[586]20 *
21 * It is intended to be used with various operating systems or nano kernels,
22 * including NetBSD, ALMOS, and GIET_VM.
23 *
24 * - Each processor initializes its Status Register (SR) to disable interrupts.
25 * - Each processor initializes its Count Register.
26 * - Each processor initialises its private XICU WTI mask register.
27 * - Each processor initializes its Stack Pointer.
28 * - Only processor 0 executes the reset_load_elf function to load into memory
29 *   the system specific boot-loader stored on disk at BOOT_LOADER_LBA
30 * - All other processors wait in a low power consumption mode that the
31 *   processor 0 wakes them using an IPI (Inter Processor Interruption)
[292]32 */
33
34    #include <defs.h>
35    #include <mips32_registers.h>
36
[606]37    /* These define should be consistent with values defined in map.xml file  */
[292]38
[586]39    .extern seg_reset_stack_base 
40    .extern seg_reset_stack_size   
[292]41
[586]42    .section .reset,"ax",@progbits
43
[348]44    .extern dtb_addr
[586]45    .extern reset_putc
46    .extern reset_getc
47    .extern reset_ioc_read
48    .extern reset_elf_loader
[425]49    .extern memcpy
[586]50    .extern reset_puts
51    .extern reset_putx
52    .extern reset_putd
53    .extern reset_ioc_init
[502]54    .extern versionstr
[292]55
[586]56    .globl  reset                    /* Makes reset an external symbol */
57    .ent    reset
[292]58
59    .align  2
60    .set noreorder
61
[586]62reset:
63    b       _reset                  /* 0xbfc0000 */
[292]64    nop                             /* 0xbfc0004 */
65
[586]66    /*  Addresses of the functions provided by this reset code */
[292]67
[634]68preloader_vector:
[586]69    .word   RESET_VERSION           /* 0xbfc0008 */
[292]70    .word   dtb_addr                /* 0xbfc000c */
[586]71    .word   reset_putc              /* 0xbfc0010 */
72    .word   reset_getc              /* 0xbfc0014 */
73    .word   reset_ioc_read          /* 0xbfc0018 */
74    .word   reset_elf_loader        /* 0xbfc001C */
[425]75    .word   memcpy                  /* 0xbfc0020 */
[586]76    .word   reset_puts              /* 0xbfc0024 */
77    .word   reset_putx              /* 0xbfc0028 */
78    .word   reset_putd              /* 0xbfc002C */
[292]79
[586]80_reset:
[292]81
[586]82    /* All processors Disable interruptions, keep STATUSbev enabled */
83
[292]84    li      k0,     (1 << 22)
85    mtc0    k0,     CP0_STATUS
86
[606]87    /* All processors compute proc_id, lpid, cluster_xy */
[292]88
89    mfc0    k0,     CP0_EBASE
90    andi    t0,     k0,     0x3FF   /* t0 <= proc_id (at most 1024 processors)    */
91
92    move    t3,     t0
93
94    la      k0,     NB_PROCS        /* k0 <= number of processors per cluster     */
95    divu    t3,     k0
[606]96    mfhi    t1                      /* t1 <= lpid       = proc_id % NB_PROCS      */
97    mflo    t2                      /* t2 <= cluster_xy = proc_id / NB_PROCS      */
[292]98
[586]99    /* All processors initialise the count register in CP0 */
[292]100
101    mtc0    zero,   CP0_COUNT
102
[586]103    /*
104     * All processors enable the WTI for XICU
105     * Each processor may have IRQ_PER_PROC irq outputs from the XICU
[606]106     * In each cluster, the XICU base address depends on the cluster_xy
[292]107     */
[302]108
[586]109    la      t3,     ICU_PADDR_BASE  /* t3 <= ICU base address                     */
110    move    t4,     t1              /* t4 <= local_id                             */
111    li      t5,     IRQ_PER_PROC    /* t5 <= IRQ_PER_PROC                         */
[302]112    multu   t4,     t5             
[586]113    mflo    t6                      /* t6 <= IRQ_PER_PROC * local_id              */
114    sll     t4,     t6,     2       /* t4 <= OUT_INDEX = t6 * 4                   */
[302]115
[586]116    li      t5,     (0xC << 7)      /* t5 <= FUNC      = XICU_MSK_WTI             */
117    or      t4,     t4,     t5      /* t4 <= FUNC | INDEX | 00                    */
118    or      t5,     t3,     t4      /* t5 <= &XICU[MSK_WTI][OUT_INDEX]            */
[292]119   
[586]120    /* All processors set WTI mask using the physical address extension    */
[292]121
122    li      t4,     1
[586]123    sllv    t4,     t4,     t1      /* Set XICU[MSK_WTI][INDEX][local_id]         */
[292]124
[606]125    mtc2    t2,     CP2_PADDR_EXT   /* set PADDR extension                        */
[586]126    sw      t4,     0(t5)           /* XICU[MSK_WTI][INDEX] <= t4                 */
127    mtc2    zero,   CP2_PADDR_EXT   /* reset PADDR extension                      */
[567]128
[586]129    /* All processors initializes stack pointer, depending on proc_id */
130
131   la      k0,      seg_reset_stack_base
132   li      k1,      0x10000         /* k1 <= P0 stack size == 64 Kbytes           */
133   addu    sp,      k0,     k1      /* P0 stack from base to (base + 64K)         */
134
135   li      k1,      0x200           /* k1 <= Pi stack size == 512 bytes           */
136   multu   k1,      t0             
137   mflo    k0                       /* k0 <= 256 * proc_id                        */
138   addu    sp,      sp,     k1
139   addu    sp,      sp,     k0      /* Pi stacks from base + 64K + proc_id*256    */
140
141    /*
142     * Only processor 0 in cluster 0 loads and executes the boot-loader
[292]143     * We have:
[586]144     * t0: global proc_id
145     * t1: local proc_id
[606]146     * t2: cluster_xy
[586]147     * t3: xicu physical base address in cluster 0
[292]148     */
149
150    bne     zero,   t0,     _reset_wait
151    nop
152
[586]153    /* Processor 0 displays version for this reset code */
[292]154
[587]155    la      a0,     versionstr
156    la      k0,     reset_puts
157    jalr    k0
158    nop
[292]159
[502]160
[653]161#if USE_SPI
[292]162
[653]163    /* Processor 0 Initialize the SPI controller */
[292]164
[586]165    la      k0,     reset_ioc_init
[292]166    jalr    k0
167    nop
168
169#endif
170
[586]171    /*
172     * Processor 0 jumps to the reset_elf_loader routine
173     * Passing as argument the block number in which is loaded the .elf file
[292]174     */
175
[586]176    la      k0,     reset_elf_loader
[292]177    li      a0,     BOOT_LOADER_LBA
178    jalr    k0
179    nop
180
[586]181    /*
182     * Processor O jumps to the entry address defined in the .elf file,
183     * and returned by reset_elf_loader function.
[634]184     * First argument is pointer to the preloader function vectors
185     * other function arguments are 0
[292]186     */
187
[634]188    la      a0,     preloader_vector
[292]189    move    a1,     zero
190    move    a2,     zero
191    move    a3,     zero
192    jr      v0
193    nop
194
[586]195    /*
196     * All processor (but processor 0) wait in low power mode
197     * until processor 0 wakes them using an IPI.
[292]198     * We have:
199     * t0: global id
200     * t1: local id
201     * t2: cluster id
[586]202     * t3: xicu physical base address in cluster 0
[292]203     */
204
[586]205_reset_wait:
[292]206
[586]207    sll     t4,     t1,     2       /* t4 <= local_id * 4                 */
208    addu    t5,     t4,     t3      /* t5 <= &XICU[WTI_REG][local_id]     */
209
[292]210    wait
211
[586]212    /*
213     * All other processors, when exiting wait mode,
214     * read from XICU the address to jump.
215     * This address is the boot-loader entry address that has been
216     * written in the mailbox by the IPI sent by processor 0
217     */
[567]218
[606]219    mtc2    t2,     CP2_PADDR_EXT   /* set PADDR extension                */
[567]220    lw      k0,     0(t5)           /* k0 <= XICU[WTI_REG][local_id]      */
221    mtc2    zero,   CP2_PADDR_EXT   /* reset PADDR extension              */
222
[292]223    jr      k0
224    nop
225
226/* Exception entry point */
[586]227
[292]228.org 0x0380
229_excep:
[586]230    mfc0    a0, CP0_STATUS          /* first arg is status                */
231    mfc0    a1, CP0_CAUSE           /* second arg is cause                */
232    mfc0    a2, CP0_EPC             /* third argc is epc                  */
[292]233    nop
234    j       handle_except
235    nop
236
[586]237    .end reset
[292]238
239    .set reorder
[302]240
241/*
242 * vim: tabstop=4 : shiftwidth=4 : expandtab
243 */
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