嵌入式开发者社区
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
; m8 ?* U% D1 d
核心板2:DDR2 256M Byte NAND FLASH 8G bit
( F8 E* o+ R: D9 V! Y# t
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?
3 L( K) V0 M7 ^
( Y" Q* t% p1 @7 N
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?
; G* z* b/ z Z& D& U
/ q( b Q5 o4 p9 s! X4 W% c
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:
% @' ]2 Q% C' x3 R$ X; f
/*
3 A2 d0 i0 Q0 Q8 s N+ ?3 s
* Check memory range for valid RAM. A simple memory test determines
/ j: X# O# s7 n# i; M
* the actually available RAM size between addresses `base' and
- R d8 ^3 [" S$ Q2 W
* `base + maxsize'.
1 q$ ^; A+ w% \7 b9 k1 `
*/
8 z+ G: c9 p$ Y! m$ Z4 @) \
long get_ram_size(long *base, long maxsize)
! f5 b8 O A6 O2 Y4 c
{
% o4 Z, b% I. m$ S3 D# @* t+ A
volatile long *addr;
# @7 R6 |. G" A D7 y* }, D( t
long save[32];
5 h3 @ u9 ^5 a' |3 D) z$ n
long cnt;
3 b7 n( z1 F1 a
long val;
0 t# ^! F- @4 j5 B! S
long size;
( e6 ?6 e5 ]! `$ v& s1 J' C3 t
int i = 0;
+ y& p, d4 Z4 {2 Q
; ~. I9 `, j4 h3 T
for (cnt = (maxsize / sizeof (long)) >> 1; cnt > 0; cnt >>= 1) {
, ]! s8 O5 ~7 S @& q
addr = base + cnt; /* pointer arith! */
) `$ D3 W# I" E2 r0 n
sync ();
' ^( @" t: E t: E, G
save[i++] = *addr;
% I% F D; Z) G* _$ s) J
sync ();
\% B" a/ ?/ M" `
*addr = ~cnt;
- |; y# g3 K/ J/ Z; |
}
1 L9 k+ |$ ~" p4 r( ~
* K, U) `# q M* W1 U* `+ l
addr = base;
6 h A. J2 Q3 F5 g0 k3 R. u
sync ();
9 d% p' w- V: w- o0 x
save
= *addr;
' m/ U0 r( ?9 P" e
sync ();
- }3 u B* o& K) t3 W
*addr = 0;
8 ^/ \. g9 o9 E# h7 F
* B7 g- B0 _, o0 X _
sync ();
$ N2 t; [9 f( w8 E5 [; s
if ((val = *addr) != 0) {
% z }1 e' Z: O9 \" d1 k1 f
/* Restore the original data before leaving the function.
4 Y8 q Y9 a" m0 ?, l
*/
- R3 H5 _' a5 A3 X
sync ();
& ~( N8 q. g2 z
*addr = save
;
: l* W* v, e7 T7 P C
for (cnt = 1; cnt < maxsize / sizeof(long); cnt <<= 1) {
/ a/ q$ d* B. k4 W2 d! k+ a
addr = base + cnt;
$ A+ _5 k6 J D. V8 q& H! C
sync ();
; i9 q6 K9 A' L& Q
*addr = save[--i];
2 N( @* D* \1 [1 z
}
1 G& C' O: Y- X9 u' R$ i) J1 e# l
return (0);
, c' w( F/ p; k, M* K) p
}
) p. o# r; a4 ?
4 L8 x- A' T" J' F9 J2 R1 ~
for (cnt = 1; cnt < maxsize / sizeof (long); cnt <<= 1) {
" ^; ]- F1 ?7 _1 Z2 [
addr = base + cnt; /* pointer arith! */
( U) ]5 S0 X6 D& l
val = *addr;
6 E+ j6 b" W4 l7 |& C% c
*addr = save[--i];
; I: |3 E% o: }5 g1 u
if (val != ~cnt) {
& u' ]6 D! h5 [
size = cnt * sizeof (long);
' P/ {( w- ~' Z9 Q( m
/* Restore the original data before leaving the function.
; i9 [9 I5 E$ R4 J7 b
*/
/ m3 q2 _+ v3 P& q
for (cnt <<= 1; cnt < maxsize / sizeof (long); cnt <<= 1) {
9 Z+ w: P, H ?" z! L
addr = base + cnt;
3 v5 K# e1 ]6 v
*addr = save[--i];
5 g9 Y7 o# Y7 I! {9 l
}
8 f+ y( W* I- a- R2 W% ~ M9 r
return (size);
" o- Z8 g' @4 g4 U/ @4 e4 X& h: M% }
}
3 G; X8 _8 R) y+ p( t+ x
}
6 w3 q2 F, z5 {9 A& _9 l
, c$ p" B& `, m3 z
return (maxsize);
7 U$ n7 t! y1 r% d- z: J# ?* h$ s
}
! Y/ ~& D/ n9 g1 W
int dram_init(void)
% z4 P6 y, u ]6 r3 P7 p
{
* T7 Y$ {" Q9 X
/* dram_init must store complete ramsize in gd->ram_size */
; p- u2 r: u1 Y- P. E3 @, @& E6 B
gd->ram_size = get_ram_size(
+ e: W0 y Z: |
(void *)CONFIG_SYS_SDRAM_BASE,
5 j/ P7 c; I9 H- r
CONFIG_MAX_RAM_BANK_SIZE);
+ p% s4 I/ G% Y5 F& r. y6 Z: ~0 b
return 0;
3 s: a0 A8 } R
}
3 H6 N$ n3 C2 U* k6 }
. E% s8 q, Y) B
7 k k) o, Z, t4 B
9 U/ S" n* i2 R9 a; v! J. ?7 c% f
! k, o! Y3 t6 }& Q+ D2 I& n" X
FLASH是通过检查FLASH内部的ID识别容量,希望对您有帮助!
, e, e2 \8 q9 M6 W- Y
6 T6 x5 |+ ~' R) Z$ _+ r
: p2 r% c7 M$ u& h. M
7 a, ?0 C. s" S: D
欢迎光临 嵌入式开发者社区 (https://www.51ele.net/)
Powered by Discuz! X3.4