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我讲创龙在DSP中使用的例子移植到ARM中,如下是我的底层驱动程序: ' D4 D; L9 p0 w/ A* B& o: x
/*
' K" o) e' h3 }1 i+ q3 L+ m- N * Copyright (C) 2009 Texas Instruments Inc# ^) C' G0 u$ d+ _4 w/ V
*: H# K/ N# p8 ?7 M2 n
* This program is free software; you can redistribute it and/or modify2 M2 W6 q! C: O. t& C
* it under the terms of the GNU General Public License as published by
+ c" E! i5 p! L3 c3 R8 p7 z" k * the Free Software Foundation; either version 2 of the License, or5 }0 c7 m) _7 V% q5 j8 n! ]2 F1 K
* (at your option)any later version.& z3 a. u. O4 h t5 D
*: z5 l6 r1 T" t3 `
* This program is distributed in the hope that it will be useful,
6 A0 A7 b0 R6 d7 V( K * but WITHOUT ANY WARRANTY; without even the implied warranty of1 _& F7 j+ k! ?( {
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the( K$ k: i: K1 e4 W: Z
* GNU General Public License for more details.! a8 y F- j; a ?
*# S$ J1 l6 A: I+ K2 C% D) b& N
* You should have received a copy of the GNU General Public License
% T( ]) g" Y8 r" X * along with this program; if not, write to the Free Software
% B9 ?2 X& L! F1 m * Foundati
% s. q2 n$ I: q# g& |! w*/
( s) P1 V+ \7 ]( \' W! h1 E: h- T#include <linux/module.h>
+ b( m7 L$ h5 ]/ k2 }#include <linux/init.h>+ [% u0 Z$ ^% Y& X8 G! G0 B% {- O$ @- l
#include <linux/errno.h>
2 W1 n" B5 a" y5 g* \6 @#include <linux/types.h>
: q. ]9 S: K2 M7 ~( |# }( ]#include <linux/interrupt.h>+ x' U/ [1 h! k" ^. }) m4 R; e
#include <linux/io.h>
! ^" ]7 _3 l) j, i" H) u#include <linux/sysctl.h>
& G8 f Y; N& v0 Z% e6 R#include <linux/mm.h>: v i1 G6 t9 N' c: R
#include <linux/delay.h>
; R; H0 s8 R6 h! b$ y6 f$ U7 h#include<linux/kernel.h>1 d4 G. G6 o X2 y! r4 Z5 a" @
#include<linux/fs.h>
8 A) k$ |. U2 e7 ?1 g. ?#include<linux/ioctl.h>& e& o- F! j* t# ^. l- _" U0 u3 j
#include<linux/cdev.h>
& D& {. G6 v+ T#include<linux/kdev_t.h>
/ J) Z, O7 w3 H& r9 Q7 N#include<linux/gpio.h>; j/ ^8 J% ^! H) Z p! {: f0 x
#include <mach/hardware.h>
/ ?6 \5 |4 T5 ]# T. `) h#include <mach/irqs.h>
) h, V; R8 E9 Y0 M8 ]$ [6 r1 G) b0 l l
#include <asm/mach-types.h>
$ u) y! @$ m( u, a#include <asm/mach/arch.h>
# ~/ G- s5 v# G$ u3 o9 |# A#include <mach/da8xx.h>
( M" Y9 F2 ~3 J- O#define SYSCFG_BASE 0x01c14000
" u5 z% ?/ _6 F#define PINMUX1_OFFSET 0x124
, ]" Y1 f" A! Q! ]#define PINMUX18_OFFSET 0x168 + b( d: S8 X8 N) p% A6 I1 Z3 v
#define PINMUX19_OFFSET 0x16c- C$ I" c/ M% c- g' i- m
#define SPCR_ADDR 0x01D11008 //MCBSP1_SPCR
4 a) H: S9 u" S$ y2 I#define RCR_ADDR 0x01D1100C //MCBSP1_RCR
( M, x A) A3 o#define XCR_ADDR 0x01D11010 //MCBSP1_XCR
( y5 y0 e% g* V. j5 v#define SRGR_ADDR 0x01D11014 //MCBSP1_SRGR( x& M' y/ e p5 I) j6 |/ t! P* M
#define PCR_ADDR 0x01D11024 //MCBSP1_PCR8 ~) U8 I$ r4 }
5 H* Y. J2 Q5 C% J2 l; o
#define DXR_ADDR 0x01D11004 //MCBSP1_DXR4 n; u; [. z9 k6 W* q+ a
#define DRR_ADDR 0x01D11000 //MCBSP1_DRR7 g& i5 e) V% S5 N, v
//PSC
7 L+ c$ R& f2 T+ P3 E( o+ H8 i#define PTCMD_ADDR 0x01E27120
2 _) N- C! T6 e4 u8 M% b" A* j#define MDCTL15_ADDR 0x01E27A3C2 w* ]3 k# P4 B
#define PDCTL1_ADDR 0x01E27304
- I4 M' s! i2 w+ }( U//GPIO8 direction: J9 }6 B3 Z) s
#define GPIO8_DIRECT 0x01E260B0
2 Z- @2 K1 V p/ L#define GPIO8_OUT 0x01E260B4
4 ~! Y# G/ Y e+ W1 k2 x#define GPIO8_IN 0x01E260C0 T* I- r; D( O9 y# Z# G3 G
( R7 p7 d, J: P' I" [3 F
//#define MCBSP1_RINT 99
2 k- P& \2 P# S8 e//#define MCBSP1_XINT 100
( ^5 x, a5 ^1 }" V/ a% _static int MCBSP_MAJOR=239;
3 [7 G9 |8 e0 ]' pstatic int MCBSP_MINOR=0;
3 r J1 W/ R( r: u/ ^( ^static int count =1;
6 b* }0 y+ k; O$ h1 I% }% F- y4 f$ n+ d; ?
#define MCBSP_NAME "MCBSP-device"0 e* l" b* u0 n- ]% }
) T8 B X3 q) p t2 R0 c; ^) V9 H
static struct cdev *mcbsp_cdev;
: Y U" y, ]8 M6 q# w) P6 c% ]) H$ ~static struct class *mcbsp_class;
3 w! C1 o6 Z D+ X: n4 ]1 _static dev_t mcbsp_dev;" ?$ B! S2 B, K8 @, Z; p$ ?. P
unsigned int DRR_data;
! ]5 z8 d% N: }unsigned int DXR_data;) x. l* g% ?9 T. T" P3 S+ [
static int mcbsp_open(struct inode *inode,struct file *file)
$ I$ k2 b7 a3 ^{' |( c) O9 H* A- R
" L8 S# r2 q& D r1 K
//interrupt enable,initialized
0 N4 x2 `+ ]* u9 ~) h) S unsigned int temp;
* G- D* k- y9 e v" O1 \: j( h //SLEEP_EN(GPIO8[10])---0
. p1 l' m1 l. e$ ] A% ]7 w. g temp = __raw_readl(IO_ADDRESS(GPIO8_OUT));# B- j j& _) O5 m3 x, E
temp=temp&(~0x00000400);* A p2 Z3 F6 g( Q4 K
__raw_writel(temp,IO_ADDRESS(GPIO8_OUT));//GPIO8[10]' y: `/ S! g7 t$ x# S
//RESETn(GPIO8[8])----0----1
( ]2 f% K& W! h8 d# Z: a temp = __raw_readl(IO_ADDRESS(GPIO8_OUT));# B/ C Q5 V' o
temp=temp&(~0x00000100);6 G" D* |, X: Z9 O/ O% Y7 W' S* O
__raw_writel(temp,IO_ADDRESS(GPIO8_OUT));//GPIO8[8]---0' W+ N9 [5 |. w l
udelay(100);" R4 r: e. s0 J% J: p3 O
temp=temp| 0x00000100;0 E4 s% o7 P2 ]' K6 c8 x
__raw_writel(temp,IO_ADDRESS(GPIO8_OUT));//GPIO8[8]---1
; ~3 {, O4 z" o udelay(100);
' P+ V C: c) S printk("open success!\n");0 U' j3 a. R7 |' U; B" l
return 0;$ F5 ^; ~8 K' ?, N) K$ E
}7 A9 x' M5 J! L/ Q6 w: B. u
2 `! u& M- i4 \static int mcbsp_release(struct inode *inode,struct file *file)
5 y% ?" r8 z- ~% \- D& D{9 m& x1 e* W* b% r( D& j
printk("release success!\n");6 b: s% U2 h5 q4 \) ]$ a6 N7 M
return 0;7 C, @: |/ a8 v; x6 z/ Q% x" J. z
}
/ Z: ~3 g- H! h7 Z d& U6 q2 j
static ssize_t mcbsp_write(struct file *filp,const char *buf,size_t len,loff_t *off)
" V! ]2 Z, V/ ?5 v9 M{( Q( P3 T: O" U; n4 q0 q
copy_from_user(&DXR_data,buf,len);
& ? y1 U3 s' I3 N8 g0 C iowrite32(DXR_data,IO_ADDRESS(DXR_ADDR)); ) v$ m+ Y! l% z) `, J- ~
return 0;4 Q7 C2 }. S- b
+ a& v6 e, X8 x
}. O) J+ n+ g& ~. |
" g& `9 ~* Z- o5 sstatic ssize_t mcbsp_read(struct file *filp,char *buf,size_t len,loff_t *off)
4 u. E/ p: T, b/ R( ~% S{
S/ n* } j3 W DRR_data = ioread16(IO_ADDRESS(DRR_ADDR));5 N5 f+ z9 {1 K
copy_to_user(buf,&DRR_data,len);
, ?, R6 q6 Y$ H5 Q$ z return 0;
: w/ f' y3 M% x) ?! E}
1 \( D9 ^4 |. D( m
) Q' _ g: e! ~. k
; i5 R9 j6 b1 l$ X% R# ?static struct file_operations mcbsp_fops=
* e% Q, R T+ ~8 k{
; J( t& e0 e6 g .owner=THIS_MODULE,. X* L2 ]4 \8 R& t g1 _: Q
.open=mcbsp_open,6 E4 H" H- T5 d- l! X0 ~2 t
.release=mcbsp_release,- Y }2 h+ H& s9 l# ~1 y W4 Q( \
.write=mcbsp_write,( [) X9 b; x N! P
.read=mcbsp_read,
: }4 O3 P6 s5 f$ s8 L* B};
) L: w! {0 v& L) s6 ~- _static int __init MCBSP_init(void)3 M: {' E! N! {; z' M
{3 i/ f; p( c9 }5 j- Q# Z* Y
int ret;" Y; p$ e% V$ ~. C' i
unsigned int PINMUX1_REG_old;: B* L0 n, L* |. l! V1 V% w! \# o
unsigned int PINMUX18_REG_old;
5 r7 u' U2 e6 P$ X% s, o! N unsigned int PINMUX19_REG_old;
1 c" E' [% S# v, O7 j, i. b unsigned int temp;
& n1 Q4 Q; w% _2 ]8 r( F if(MCBSP_MAJOR)
: F5 }; q& B4 @& M {
9 _: J" `) P" L* }2 l4 H mcbsp_dev=MKDEV(MCBSP_MAJOR,MCBSP_MINOR);! N$ V4 g0 t0 v0 ^
ret=register_chrdev_region(mcbsp_dev,count,MCBSP_NAME);" c. _' f2 w! z$ T3 l9 _- |/ ]6 v0 A
}
' }! j9 a. C6 J6 S& S2 b& ~) r else6 h& H* w' O( [; s" P8 r
{
- l! O+ E" O8 }7 N' ]% p ret=alloc_chrdev_region(&mcbsp_dev,MCBSP_MINOR,count,MCBSP_NAME);9 V) B, y [7 m; s; t
MCBSP_MAJOR=MAJOR(mcbsp_dev);
3 Y4 n5 @* h# z! t }
$ @+ f* \6 z& I; M _ # ^0 ?- i3 v+ y+ l+ |# g3 l
if(ret<0)$ t: c! r8 {4 u$ x
{
' |2 s$ Y: ~5 V* \; B9 p printk(KERN_ERR "register chrdev fail!");; M8 Z* W1 F( ?+ w
return -1;
% _7 o# J7 s4 E) n1 E: E/ [) }% i1 a }
, q/ J8 o5 y8 U/ ]0 l3 j- f% X M. n2 g2 \! K( _1 L6 r" v
mcbsp_cdev=cdev_alloc();/ h! O/ E: M: w2 X
% z: M: v+ _( n* [$ N if(mcbsp_cdev!=NULL)0 }5 x; \) }' _
{$ R+ g0 y+ {0 z a6 @2 `' K* M
cdev_init(mcbsp_cdev,&mcbsp_fops);; s% F( c* q0 Q, ~ W8 {
mcbsp_cdev->ops=&mcbsp_fops;, ?& s4 q; p. a6 }/ e: \
mcbsp_cdev->owner=THIS_MODULE;" A" J d0 L: e
9 q0 J: E2 r; o. ~7 G if(cdev_add(mcbsp_cdev,mcbsp_dev,count))
( a6 O; K+ h \8 _/ p) s: A) J printk(KERN_ERR "register cdev fail!");
+ k( D" q1 a! T* ^- _( g else6 } d- U8 T- g# C) s6 m9 r' Z2 e: F
printk(KERN_ERR "register success!\n");; A! ]3 J. k; n5 |5 g6 P- [
}
2 l* y, m4 D: {6 b5 s else
- C& L7 q0 l. x; G% L8 v* m3 E" z# v {
# h" ]9 x5 ^, o. C) p' @ L. R; |9 D printk(KERN_ERR "register cdev err!");
- S$ X; b8 d1 t9 k: G return -1;* b3 K. n) \- y0 J3 d1 O
}
- S, O& M: |4 I) S& F0 D
' j) ~9 k" u. ^4 M5 j3 Q+ R mcbsp_class=class_create(THIS_MODULE,MCBSP_NAME);
+ {3 {- \0 k7 E# ?' B6 M if(IS_ERR(mcbsp_class))& g2 R$ W6 O9 j7 z/ o& B
{
( j5 T6 x) R* U printk(KERN_ERR "register class err!");$ t1 M0 O) |1 p+ b3 q2 p) U
return -1;$ m# |* m4 V; o4 ?# M
}$ \* G! F9 C4 ^7 H7 E* Z
device_create(mcbsp_class,NULL,mcbsp_dev,NULL,MCBSP_NAME);
; |' m; T7 y6 K9 ?% P
: X# F3 o/ m6 V' Z; \ //PSC/ \3 I5 A# _& @# H& t' ]
//add Enable MCBSP
3 P! I8 g8 H5 u$ p$ b+ E- {- q& D //test
0 |; y" L8 }+ p9 _( P# ^9 f temp = 0x80000003;0 P0 D( o' ^* y$ d2 i, X
writel(temp, IO_ADDRESS(MDCTL15_ADDR));
8 Z. ]4 V A7 B3 g i9 D temp = 0x00000003;
8 E% |+ b5 _9 c* s& a# M& O writel(temp, IO_ADDRESS(PTCMD_ADDR));
& T& y( M. J; {9 w5 x ! W# h; c; a/ k( {
temp = 0x001FF201;
# \# Y: j$ x4 b H$ y. _, p writel(temp, IO_ADDRESS(PDCTL1_ADDR));
6 M7 w* _# G5 [3 J {! C$ A0 U% a& ~
% A& P- O: h+ I3 K" C //PINMUX & T" o$ S# S' V- }
//MCBSP_CLK(receive/send),MCBSP_STRB(receive/send),MCBSP_DX,MCBSP_DR,9 M$ f+ v. ?: ?8 r) H \
PINMUX1_REG_old=readl(IO_ADDRESS(SYSCFG_BASE)+PINMUX1_OFFSET);
' _; T& y- y3 g8 B( V/ C PINMUX1_REG_old=(PINMUX1_REG_old&0xf000000f)|0x02222220;
2 ^& k" ?$ |, H8 S9 u writel(PINMUX1_REG_old, IO_ADDRESS(SYSCFG_BASE)+PINMUX1_OFFSET);
- B) ~% c7 Y. R/ u# @% N! b W. @# @3 j: s6 \8 _- {$ i. d
//SLEEP_EN,EPR,L138_SHK1,L138_RC
7 U9 y) b% s$ |$ c) q PINMUX18_REG_old=readl(IO_ADDRESS(SYSCFG_BASE)+PINMUX18_OFFSET);
) G1 Q' M* Z6 E/ I! f8 d( S PINMUX18_REG_old=(PINMUX18_REG_old&0x0000ffff)|0x88880000; $ R+ w7 p; ~0 ]
writel(PINMUX18_REG_old, IO_ADDRESS(SYSCFG_BASE)+PINMUX18_OFFSET);
, w9 n3 \3 _- J* b* q8 f 9 k0 V) S4 F0 g6 M, z
//RESETn,L138_SHK2% `: L, g" v! [, ]' x% T: B& p
PINMUX19_REG_old=readl(IO_ADDRESS(SYSCFG_BASE)+PINMUX19_OFFSET);
! p# z. W' x B# G# V PINMUX19_REG_old=(PINMUX19_REG_old&0xf0ffff0f)|0x08000080; / a6 N! ~2 h0 D9 O% E8 S" \
writel(PINMUX19_REG_old, IO_ADDRESS(SYSCFG_BASE)+PINMUX19_OFFSET);2 V+ C$ S' x3 V5 C0 x" {
' W5 [1 c$ p, D% |1 c
; U L/ |: S- ~3 w- k! L6 L' z //SPCR Register
* ^) d( L5 [+ j% |) [( N6 I8 J //FREE-1,SOFT-1,FRST-0,GRST-0,XRST-0,RRST-0,RJUST-00(Zero-fill MSBs)reset- h# E! N9 I* {
temp = 0x03000000;//(DLB=0)- [: X& ~1 t1 R
// temp = 0x03008000;//(DLB=1)0 \4 p) ]' Q$ R" ~( m
writel(temp,IO_ADDRESS(SPCR_ADDR)); //reset) t+ {$ k: O. ]: r$ d
temp = readl(IO_ADDRESS(SPCR_ADDR));
- H* n( [; p9 K1 O* U/ ^' X printk("temp=%x\n",temp);
: P! x0 J+ C5 t6 d& S8 W
- Y! N, _. M4 B% |- s% q //PCR Register
6 ]7 s! j8 A( \1 j9 } //FSXM-1,FSRM-1,CLKXM-1,CLKRM-1,SCLKME-0,FSXP-0,FSRP-0,CLKXP-0,CLKRP-0
2 [- Z! V4 n5 @$ U // temp = 0x00000F0F;
) K' U; |7 L) N# X8 U temp = 0x00000B0F;
8 T" e% z6 T) n: C6 c& f+ n8 v4 e7 ^ writel(temp,IO_ADDRESS(PCR_ADDR)); //initialized / o: R/ O+ w$ B; v
temp = readl(IO_ADDRESS(PCR_ADDR));/ f5 p4 z$ D( i( B+ h9 x
printk("temp=%x\n",temp);
8 Q9 R& m& Q$ H5 G4 N //SRGR Register
l$ `( M0 A9 Z* q( q V; y //GSYNC-0,CLKSP-0,CLKSM-1,FPER-31,FWID-0,CLKGDV==11
. S$ F5 v+ F( `- h( Z$ J //temp = 0x301F000B;
: B* `, V5 Y; P0 X% g' r1 C writel(0x0301F000B,IO_ADDRESS(SRGR_ADDR)); //initialized
% }* X: ^6 o; w% e( D ^% Z- h temp = readl(IO_ADDRESS(SRGR_ADDR));
# s" R0 ]/ ?; F printk("temp=%x\n",temp);" a# l4 P1 o, G, \
//RCR
9 g' }. w& W! Z# q //RPHASE-0,RFRLEN2-0,RWDLEN2-2,RCOMPAND-0,RFIG-1,& j$ I: F# M$ f, n2 q; E9 R& ^
//RDATDLY-0,RFRLEN1-0,RWDLEN1-2,RWDREVRS-0# q% v/ L" m% U2 C& u0 w
temp = 0x00440040;
- J* Z& V2 }: c' S8 n' @' y7 ~2 i writel(temp,IO_ADDRESS(RCR_ADDR)); //initialized 6 h+ m& J9 M& w! R( r6 ~: T
temp = readl(IO_ADDRESS(RCR_ADDR));
: q& b$ c7 p7 B9 Z printk("temp=%x\n",temp);* t: B0 u5 { n7 n. K
//XCR
: i w" |( ` Q: M //XPHASE-0,XFRLEN2-0,XWDLEN2-2,XCOMPAND-0,XFIG-1; t3 ], M" Q# C# ~9 @" n3 g% z$ p
//XDATDLY-0,XFRLEN1-0,XWDLEN1-2,XWDREVRS-0# e! t" ~) h# U. q
temp = 0x00440040;
8 j' j- R8 L1 E0 F, z( g! a( ~ writel(temp,IO_ADDRESS(XCR_ADDR)); //initialized ; y. g0 q0 K* v- j9 a, H I
temp = readl(IO_ADDRESS(XCR_ADDR));
9 U6 w6 |3 F* \8 n printk("temp=%x\n",temp);
2 w# E% r" C0 O1 {9 M; Q udelay(100);
/ E/ ]1 q7 Y0 u5 U) R5 I, v //SPCR Register
1 O6 N. X6 H- T //FREE-1,SOFT-1,FRST-1,GRST-1,XRST-1,RRST-19 q: e3 c+ d! h3 `
temp = 0x03C10001; //DLB = 0 VS DLB = 1
. B; b+ X9 V5 z( u- ?7 x* c4 @% e+ v writel(temp,IO_ADDRESS(SPCR_ADDR)); //enabled
: J7 K$ s! G. J' J5 U0 |1 r0 G temp = readl(IO_ADDRESS(SPCR_ADDR));1 w* i& e% Q- X* w% I
printk("temp=%x\n",temp);& S6 |) A0 ?$ Y5 ?$ J" Y7 @: E
udelay(100);; r: G4 S: }. n* u4 p/ [5 @2 K
( X9 P) y7 h5 ` U4 | //set GPIO direction& A* N9 ]1 M0 ^3 {
temp = __raw_readl(IO_ADDRESS(GPIO8_DIRECT));
9 P+ w: s, `9 y b( Z temp = temp | 0x00000100;//EPR----input
: _$ ^8 _# N! A temp = temp&(~0x00000500);//RESETn,SLEEP_EN---output4 x; X' Z& ?( y5 u
__raw_writel(temp,IO_ADDRESS(GPIO8_DIRECT));
$ l N3 i) p3 D2 c1 Y0 m& {% l
/ S7 [- m4 o( l$ t3 k( d' e return 0;
& P) J4 o4 s! `4 _4 \}
; [9 B) I; E0 i6 Q) ]+ bstatic void __exit MCBSP_exit(void)* W3 c- d: G0 S/ I2 y
{
' g" H7 g/ u' b- q: z printk("mcbsp chrdev exit!\n");8 E3 G5 K0 ^6 Y
cdev_del(mcbsp_cdev);
5 _' u, N# ?0 J; K1 i unregister_chrdev_region(mcbsp_dev,count);% T6 A* r0 Y @- Z9 n; Y( W
device_destroy(mcbsp_class,mcbsp_dev);
- J- h! U9 ~( X: C class_destroy(mcbsp_class);
2 K% P- P2 T9 Z6 @9 j}
9 ]3 \* f. j4 ?, X1 `4 k' V( n* V3 Umodule_init(MCBSP_init);: f' s, D4 L% E$ \) J M' q! H% d$ S
module_exit(MCBSP_exit);5 C, i0 z" T% [' @, z/ J3 \
1 A5 t5 M O: ]4 I! z. lMODULE_LICENSE("GPL");2 m. F% b$ h8 [8 Z7 W% F
8 B$ P$ Z% M; i
我讲上面的程序insmod之后我用示波器量 McBSP的发送时钟脚,发送数据脚(我还没有发送数据)以及发送同步脚,3个脚的信号是一样的,不管是用我自己的底板测试还是用创龙OMAPL38 的开发板测试,都是一样的,类似于噪声的信号时钟频率也不对。
# i/ A/ S1 u% T我的应用层的测试程序如下
9 ?; m% e/ t7 T+ l- w0 s5 a#include <stdio.h>% l1 [) }3 j9 r& H3 u
#include <string.h>- J' u! f: c4 N8 K# \2 h- C
#include <fcntl.h>
: j' E& Z+ [) d5 x) R#include <unistd.h>
1 } ]# Z9 p2 O( f#include <signal.h>
! E" z* K2 T8 z: t1 @% _: W2 V& L#include <pthread.h> //线程
9 E0 _0 R+ b6 \$ Q#include <stdlib.h>% z; S# q$ S# w% B
#include <pcap.h> //捕获网口数据$ Q, l. t" b* M- C2 c+ H
#include <semaphore.h> //信号
) `/ J) @* u! ?- J' p: m* w2 _) \/ r: G#include <sys/types.h> //消息对列+ X4 P9 G( t$ L
#include <sys/ipc.h> //消息队列$ E5 m T2 j L; @
#include <sys/msg.h> //消息队列) ~' Z4 g( C8 q. D
#include <sys/select.h> J3 g) |% Z% ~$ w4 [* P* `7 b
#include <sys/syscall.h>; ~) O6 j5 T4 j, j8 r# F. Y/ n
#include <sys/stat.h>
$ j s- D) z( e U#include <sys/mman.h>
/ t1 K: G# ]' ?% X5 o& U2 h#define msleep(x) usleep(1000*x)
7 \( ]! E n4 Z. r% F( f: J4 G
& _ D- E7 i: k! U1 R e: |7 @' u2 Tint main()
' D3 Q$ X3 ^( B{
2 M' i9 I, f( j! a) m0 v+ D# o //MCBSP,ARM与AMBE2000交互设备% l% Y( g: e' e& _) X
int fd;2 b* o: F' f9 i. c
unsigned short data_write = 0x5555;
: i% H# V" v8 \" Q; \ unsigned short data_read = 0x00;0 I2 |& p! R/ Z: F
fd = open("/dev/MCBSP-device", O_RDWR | O_NONBLOCK | O_SYNC);7 Q' M) n+ Q( Y6 ~' ?! H
// fd = open("/dev/led-device", O_RDWR | O_NONBLOCK | O_SYNC);
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if(fd < 0)% j' L* a- }; ?( E
{
! l v* X& t5 [0 v. ?+ _2 h8 j6 ^ perror("open failed\n");
. r+ r5 ^2 ~& v) \) X' C. Q return -1;/ z7 Z. v* C$ v# {6 X1 j
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while(1). f. h$ } C- o* w. C! \
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; x6 J1 a1 s* N# |$ ^6 U) V1 }7 h1 ^ //AMBE2000每次读写是24个字为一帧
& x3 l: N) s7 Q/ N; ]: S+ r) [ //写数据时将数据在底层存储起来,等到中断的时候再发送: Y9 }/ }9 _- B0 \0 b1 T8 ^
//AMBE2000输入数据是以0x13EC开头的) o7 ?0 R4 n; |# E ^9 g8 w
write(fd,&data_write,sizeof(unsigned short));
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1 t3 K0 \# ]3 w' Q( F: A //读数据的时候,在底层中断中将接收到的数据存储起来,然后再传送到应用层 - z; L$ a5 z; b9 C& P& L1 U9 x* v$ E
read(fd,&data_read,sizeof(unsigned short));
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$ B9 Q) W1 ?7 ^" K! V if(data_read == 0x13Ec)* V7 p, C3 Q( S% l
{
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9 q' }% n" J% |0 E* d+ K7 f printf("data_read = %x\n",data_read);
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2 {6 G' J; K; {" @4 i! V msleep(10);8 {; Y( T) z- \0 I, G
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ioctl(fd,1); # d% |$ K/ y& w* z, p1 S3 J9 k! X
sleep(1);
* P9 [) ~) i D; E' I }7 \ ioctl(fd,0);% \( l5 j) ]2 s) A( i" E6 J, j
sleep(1);6 ~% `7 E2 D) W5 ?2 W) ]4 b
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}
- A" {$ e0 `/ j' q5 a! z return 0;% @3 r+ i2 q- u# x8 g/ O5 y* j
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1 H& H: S% @2 y' F, r) q4 L多谢各位指教,谢谢! 急
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发表于 2014-10-16 10:58:57
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