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标题: TL138 uboot是怎么区分配置两款核心板的 [打印本页]

作者: Mr.Loser 时间: 2014-9-11 09:33
标题: TL138 uboot是怎么区分配置两款核心板的
核心板1：DDR2 128M Byte NAND FLASH 4G bit
核心板2：DDR2 256M Byte NAND FLASH 8G bit
这两个核心板公共一个uboot，DDR2的配置肯定是不同的，uboot怎么检查到是哪个核心板，然后去执行相应的配置呢？

是不是通过读NAND FLASH的ID，两款核心板NAND FLASH不同，ID也不同，这样读到了ID就知道是哪个核心板了？

作者: 2532609929 时间: 2014-9-11 18:55
DDR通过检查最大有效地址来识别容量，具体请看uboot的common/memsize.c文件中的检查代码，也可以看如下：
/*
* Check memory range for valid RAM. A simple memory test determines
* the actually available RAM size between addresses `base' and
* `base + maxsize'.
*/
long get_ram_size(long *base, long maxsize)
{
      volatile long *addr;
      long          save[32];
      long          cnt;
      long          val;
      long          size;
      int          i = 0;

      for (cnt = (maxsize / sizeof (long)) >> 1; cnt > 0; cnt >>= 1) {
            addr = base + cnt;       /* pointer arith! */
            sync ();
            save[i++] = *addr;
            sync ();
            *addr = ~cnt;
      }

      addr = base;
      sync ();
      save = *addr;6 N: t, Z7 L1 ^; A0 D9 o
      sync ();: X8 A" b( {2 U+ I
      *addr = 0;! Y& H/ _. _+ N( l9 Q6 Y+ x4 q

! K* C3 R/ R" A4 X' q4 s       sync ();
1 j8 V3 V- b  p' A       if ((val = *addr) != 0) {8 g2 e9 j( k. Y! e$ _, ?9 V6 [
            /* Restore the original data before leaving the function.
: B$ Y* y8 h0 G1 ^3 L* d' X" Q- Y, j                */
% [% `+ l* g8 ?6 V% s+ ~$ X6 f             sync ();
& o: _+ @6 g2 s3 |             *addr = save;
2 B; {4 f' @+ p( Q  t: b" q8 x4 M             for (cnt = 1; cnt < maxsize / sizeof(long); cnt <<= 1) {
; I1 N* K: @' O# V1 A8 O                      addr  = base + cnt;
, M- o+ _; q0 e! i* l8 O9 Q0 Z                      sync ();$ f$ B. `4 T: b. I2 V4 t
                     *addr = save[--i];/ x# e6 y9 [3 F1 u- F
            }7 Q" |$ j% w7 s, j0 j$ Q
            return (0);+ O0 r2 \6 I& L
      }
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      for (cnt = 1; cnt < maxsize / sizeof (long); cnt <<= 1) {
1 C- {, U  S* \6 H2 O             addr = base + cnt;       /* pointer arith! */
+ b& r( \5 ^5 i             val = *addr;/ y- E" Y0 \- X3 g$ J/ B% R/ f
            *addr = save[--i];' w! [7 \! o2 R) k; K/ ?9 s
            if (val != ~cnt) {
" V0 U2 \4 b$ W7 `. {                      size = cnt * sizeof (long);
: P" Y+ Y0 }( |; [7 J0 a                      /* Restore the original data before leaving the function.' E" Y4 y" u8 i0 e1 W
                     */6 c& j/ o* A/ h* p
                     for (cnt <<= 1; cnt < maxsize / sizeof (long); cnt <<= 1) {" \# Y2 K7 g: d+ t* @) k: r# N$ j' [
                              addr  = base + cnt;
- c; A3 S4 z" s: @# r                               *addr = save[--i];
& Q9 n7 I9 l! k+ E. n                      }' Q" X2 |2 O* K6 U& \, x4 j- l
                     return (size);
5 C6 z" v# ~* D' }& j             }
, B, x8 V! x) Z# T) {       }1 l6 N6 \& I' l, N# A

/ ?, U+ q& h- @0 ?( H3 S# O       return (maxsize);
* t8 Y  Z: }& p* m/ i! ^}; \2 l5 n" J5 |; ^
int dram_init(void)
2 J3 N! r. S4 N! a6 T9 Z3 b( ?! P{& ?- h1 C! i6 B4 d6 |+ _
      /* dram_init must store complete ramsize in gd->ram_size */
, f6 f6 [# }3 E+ g% }# T# I       gd->ram_size = get_ram_size(
4 A$ N7 ]6 u3 m                      (void *)CONFIG_SYS_SDRAM_BASE,
9 U" u9 @8 Z5 q# c$ H                      CONFIG_MAX_RAM_BANK_SIZE);
. T' O+ K2 r, E2 }- ]7 a       return 0;
9 P( f+ u' E  c: `}% T, S7 k4 e$ b1 ]7 |9 ~) l; Y6 S/ u* D
3 |4 R! G0 L1 |) X
  C7 v( ?1 [/ F2 S. j9 t- A
+ B7 h0 c2 o, F- v1 l0 E, A
- s4 E, \- A8 o1 U% {# I# E1 w+ U
FLASH是通过检查FLASH内部的ID识别容量，希望对您有帮助！
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