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我们在使用的核心板是OMAPL138 128M内存规格,但是在开发板快速体验手册中提供的U-BOOT参数配置命令是:从SD卡启动:
: I8 ^6 {. B- ~& }% p/ M1 o在3秒内按任意键进入u-boot命令行,执行以下命令设置为SD卡启动:
7 U. S" O$ k3 B' BU-Boot > setenv bootcmd 'mmcinfo;mmc init;fatload mmc 0 c0700000 uImage;bootm'
' P& M3 o5 j- e U-Boot > setenv bootargs console=ttyS2,115200n8 root=/dev/mmcblk0p2 rw rootfstype=ext3 mem=128M
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从FLASH启动:/ r5 H3 m- g) _; l
在U-Boot命令行执行以下命令来设置为NAND FLASH启动系统。 0 v/ k) Y. i8 u
U-Boot > setenv bootcmd 'nboot.e 0xc0700000 0 0x120000; bootm' * |" I* D+ r7 q" l ^5 x, j. }1 y
U-Boot > setenv bootargs 'console=ttyS2,115200n8 ip=off ubi.mtd=4,2048 root=ubi0_0 rootfstype=ubifs mem=32M@0xc0000000 mem=64M@0xc4000000'
! t) |* E* J( a% t7 U U-Boot > saveenv
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5 O3 M9 d3 ^2 f& H/ f" @请问这是笔误还是从SD卡启动和从NAND启动内存大小设置不同?: B6 m3 P- o1 x5 Z3 P6 f S, J
另外我设置从NAND启动 内存大小为128M,在 rc5.d中创建s99restart脚本,内容为 0 s M0 B, P8 ]7 \$ W3 _9 U$ o$ i
sleep 55 \+ { X& t+ k6 h& D1 Z) b
reboot
. W3 z: G! A, a( L$ O意图是通过不断的热启动来验证系统UBIFS对NAND的读写是否稳定,但是发现会概率性出现以下的段访问异常错误,掉电重启后又恢复正常,/ v) c' e* X# @. N# z) X
内核版本为创龙提供的2014.11.15的版本,请问这会是什么原因导致的,错误信息如下:
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6 ~/ p* ^5 N9 P0 H3 H: i[ 2.637774] UBI: attaching mtd4 to ubi0
2 D9 ?5 d# Q! e8 s9 O* _7 G7 _, X) w[ 2.641673] UBI: physical eraseblock size: 131072 bytes (128 KiB)# K* n# t4 x- t, y$ T3 a
[ 2.648283] UBI: logical eraseblock size: 126976 bytes
$ ^# J# G8 E* o- r2 ]$ U[ 2.653769] UBI: smallest flash I/O unit: 2048
( I' s. c" D5 C$ t[ 2.658648] UBI: sub-page size: 512
+ t- }+ o0 n# Z9 U; y% l% m[ 2.663309] UBI: VID header offset: 2048 (aligned 2048)
' s4 X; k/ v. b1 i/ [* R. K* S[ 2.669464] UBI: data offset: 4096( a% W) C! Z" x2 `) r
[ 6.060848] UBI: max. sequence number: 23862999 @; Z( v' u6 A' v* `* N2 D
[ 6.083946] Unable to handle kernel paging request at virtual address 872281a4$ ?7 z0 D7 `7 \
[ 6.091390] pgd = c0004000* b+ z$ i+ L+ d. o& U0 ] |2 y
[ 6.094134] [872281a4] *pgd=000000002 i8 o# E' D5 p/ g4 C4 f: V
[ 6.097850] Internal error: Oops: 805 [#1] PREEMPT
" a- z7 S$ G" ` m[ 6.102678] Modules linked in:, I- U: J( D( ^
[ 6.105775] CPU: 0 Not tainted (3.3.0 #15)
! o' E) u, I* r1 B[ 6.110284] PC is at ubi_wl_init_scan+0x218/0x31c
% r; a- Y( G% G8 ?% k( U[ 6.115032] LR is at ubi_wl_init_scan+0x1f8/0x31c
( R5 D: D1 S) \8 F$ U[ 6.119777] pc : [<c0240324>] lr : [<c0240304>] psr: a0000013
* c# e+ D2 ^) J# Y3 j9 X+ h[ 6.119794] sp : c7835e40 ip : c7b6fc90 fp : c7835e6c% w* o2 I; L+ P( Q2 G: H4 D& l/ s
[ 6.131337] r10: c7950b78 r9 : c05cbd68 r8 : c7950b84
4 B! L; }. {4 R/ A7 N& E[ 6.136600] r7 : c7b9e860 r6 : c7bb0090 r5 : c7950800 r4 : c7bb00787 e0 }+ x1 _/ l* B
[ 6.143174] r3 : c7b68000 r2 : afdb0069 r1 : c7950b78 r0 : c7b6fc90
/ w$ I7 k5 z; e9 E; Z% @# f6 c[ 6.149751] Flags: NzCv IRQs on FIQs on Mode SVC_32 ISA ARM Segment kernel Q/ d' d" h* o1 C+ F
[ 6.157111] Control: 0005317f Table: c0004000 DAC: 00000017$ z5 R3 C+ C, y, v& D
[ 6.162898] Process swapper (pid: 1, stack limit = 0xc7834270)
6 @" q/ |, \( V2 h" r N/ f[ 6.168773] Stack: (0xc7835e40 to 0xc7836000)
( n! \* S$ ]" p ][ 6.173179] 5e40: 00000081 00000000 c7950800 c7906a80 00000000 00000000 00000000 00000000
6 d- f6 X' v' g' ]: |5 f[ 6.181433] 5e60: c7835f64 c7835e70 c023a224 c024011c c7835eb4 c7835e80 c7835eb4 c7b9ce00; E4 i) B- R" ^
[ 6.189685] 5e80: c00e380c c0407108 c7835eb4 c7835e98 c00e2ea4 c00e2d28 00000000 c794cfa06 B$ u+ h4 N- y$ Q4 _) l0 F
[ 6.197935] 5ea0: 00000000 c78c6320 c7835ef4 c7835eb8 c00e40ac c00e3800 00000000 c7835ed09 V% m; F4 n0 T, t( Z* `+ U# p, d
[ 6.206188] 5ec0: c7835ef4 c7835ed0 c78c6320 00000000 c05bb8a4 c780ec00 c04f7caa 000000005 H& ~) j9 f5 d) U
[ 6.214442] 5ee0: 00000014 c04f7caa c7835f04 c7835ef8 c780ec00 00000018 c7835f38 c057c08c
1 i$ @0 j T4 S[ 6.222691] 5f00: 00000014 c7835f7c c057c08c c057c08c 00000000 00000000 00000000 00000000
2 I/ B! u. T; C+ ], \/ R4 B[ 6.230941] 5f20: c7835f54 c7835f30 c01a327c c01a739c 00000000 0000000a c7b9ce00 c05cbce82 `& Q# K, M- k* i* H. K
[ 6.239191] 5f40: c7b9ce00 c057c08c 00000000 00000000 00000000 00000000 c7835fa4 c7835f68
/ X2 v" y4 { Z! e! q3 @' {9 i: l[ 6.247444] 5f60: c0567b60 c0239d70 00000000 c7835f78 c01ed618 c01ed5a8 c057e848 c057c08d
( B" C3 c( w- L7 a[ 6.255695] 5f80: c001baf0 c057e84c c055120c c001baf0 00000013 c0567998 c7835fdc c7835fa8
% l9 `. I7 \5 z) g( D8 _' M[ 6.263949] 5fa0: c00087ec c05679a8 c7835fc4 c7835fb8 c0038acc c01a06e8 c057e84c c055120c! m0 @) ~- _% y
[ 6.272200] 5fc0: c001baf0 00000013 00000000 00000000 c7835ff4 c7835fe0 c0551288 c000875c1 u. z9 N* o' S; w# N& f, |
[ 6.280451] 5fe0: 00000000 c055120c 00000000 c7835ff8 c001baf0 c055121c 00004010 00005019
$ i! W' C) w1 b3 ][ 6.288678] Backtrace:
0 `$ N4 N9 g+ \ x2 i, ^+ L% n3 ?[ 6.291178] [<c024010c>] (ubi_wl_init_scan+0x0/0x31c) from [<c023a224>] (ubi_attach_mtd_dev+0x4c4/0xb24)
! G* ~! d( }! L9 l[ 6.300767] [<c0239d60>] (ubi_attach_mtd_dev+0x0/0xb24) from [<c0567b60>] (ubi_init+0x1c8/0x2d4)8 D3 I/ b0 O) \7 c
[ 6.309642] [<c0567998>] (ubi_init+0x0/0x2d4) from [<c00087ec>] (do_one_initcall+0xa0/0x178)
5 O- q: x5 r0 o: x+ J8 u[ 6.318137] r8:c0567998 r7:00000013 r6:c001baf0 r5:c055120c r4:c057e84c
& ]* w* D& S1 o[ 6.324958] [<c000874c>] (do_one_initcall+0x0/0x178) from [<c0551288>] (kernel_init+0x7c/0x124)& m" n6 z! _4 w n- v
[ 6.333766] [<c055120c>] (kernel_init+0x0/0x124) from [<c001baf0>] (do_exit+0x0/0x720)- T# _- i2 m) f: o
[ 6.341738] r5:c055120c r4:00000000
- |- W$ G( a3 V# |* N& L& P[ 6.345365] Code: e58c2010 e5943000 e58c300c e59533f8 (e783c102)
% U6 J* V) X, D+ x[ 6.351895] ---[ end trace c93823a902b142fe ]---. n. f& ^& \- q B: ~/ d @# B) M
[ 6.356612] Kernel panic - not syncing: Attempted to kill init!
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