C6747利用McASP发送中断方式完成音频输入信号的直接输出

yusijiangchengm

C6747和C6748感觉差不多，我想实现McASP发送中断方式控制音频信号，在轮询的例程基础上改的，轮询程序可以实现，但是中断一直实现不了，也找不到错误，求大神帮忙！下边是主要程序：
main文件：
interrupt void interrupt4(void)  
5 h6 _& L( b( J" b2 N9 e. v. ]+ V{
  i8 V0 R+ i7 o* R  Uint32 sample;

/ [- V* r8 Y: x' K! B  sample = input_sample(); // read L + R samples from ADC
  output_sample(sample);   // write L + R samples to DAC
  return;
}
8 x: C) {% I0 v3 M( J# d! M3 t( h
. j3 Y& V" C# W9 x: [+ \6 tint main( void )
& d4 j% s: ]8 \{
$ \# t% A+ }6 @: M$ S) `2 q
    /* Initialize BSL */
    EVMC6747_init( );
        /* Call evmc6747_intr function */
7 c# V9 ^( m1 _7 v4 A    aic3106_init( );
; C) q; ]! P& {/ J- k) U        while(1);
! C3 L( W4 P; g  n6 z}

/ [( e0 I) `. A  e3 b
$ F7 D- P: m1 k% Baic3106_init文件的一部分，McASP配置部分，采用内部时钟，I2S方式，同步传输。音频芯片的配置应该没问题
/* Initialize MCASP1 */
    mcasp = &MCASP_MODULE_1;
" `. k2 u" K& V  T; @    mcasp->regs->GBLCTL  = 0;       // Reset
% m( [& H% z$ i( F    mcasp->regs->RGBLCTL = 0;       // Reset RX
* o+ E4 g8 e! f( \4 @& Q) T8 g& {    mcasp->regs->XGBLCTL = 0;       // Reset TX
  I$ o  ?5 Z4 B5 U    mcasp->regs->PWRDEMU = 1;       // Free-running
   // configure McASP0 receive registers
    mcasp->regs->RMASK      = 0xFFFFFFFF; // No padding used
    mcasp->regs->RFMT       = 0x00018078; // MSB 16bit, 0-delay, no pad, CFGBus
    mcasp->regs->AFSRCTL    = 0x00000112; // 2TDM, 1bit Falling, External FS, word
    mcasp->regs->ACLKRCTL   = 0x000000AF; // Rising INTERNAL CLK,(from tx side)
4 K9 f9 P7 k; F; E$ m    mcasp->regs->AHCLKRCTL  = 0x00000000; // INT CLK (from tx side)
0 ?+ [& O; K' ^9 M! w* a    mcasp->regs->RTDM       = 0x00000003; // Slots 0,1
    mcasp->regs->RINTCTL    = 0x00000000; // Not used
    mcasp->regs->RCLKCHK    = 0x00FF0008; // 255-MAX 0-MIN, div-by-256
0 h+ k( q; G: O) N7 Q2 f
/ r! V+ t( r: N; P" G# b0 i  f) L, l    mcasp->regs->XMASK      = 0xFFFFFFFF; // No padding used
4 ?$ H: [- F9 A  w; x    mcasp->regs->XFMT       = 0x00018078; // MSB 16bit, 0-delay, no pad, CFGBus
& I7 v) V5 ^$ F8 g2 ~    mcasp->regs->AFSXCTL    = 0x00000112; // 2TDM, 1bit Rising edge INTERNAL FS, word
3 N# z/ K& H4 p2 h    mcasp->regs->ACLKXCTL   = 0x000000AF; // ASYNC, Rising INTERNAL CLK, div-by-16
/ n: v. U. \6 `' Y0 s5 E* b    mcasp->regs->AHCLKXCTL  = 0x00000000; // EXT CLK
9 T  _3 a$ D- O: K    mcasp->regs->XTDM       = 0x00000003; // Slots 0,1
6 l( G' ^' K9 ^    mcasp->regs->XINTCTL    = 0x00000020; // interrupt on transmit
" P9 K, V4 D3 e# s) M    mcasp->regs->XCLKCHK    = 0x00FF0008; // 255-MAX 0-MIN, div-by-256

5 g) Y% g# I/ b    mcasp->regs->SRCTL5     = 0x000D;     // MCASP1.AXR1[5] --> DIN
    mcasp->regs->SRCTL0     = 0x000E;     // MCASP1.AXR1[0] <-- DOUT
    mcasp->regs->PFUNC      = 0;          // All MCASPs
+ C4 X6 {0 P5 w1 ~    mcasp->regs->PDIR       = 0x14000020; // All inputs except AXR0[5], ACLKX1, AFSX1

    mcasp->regs->DITCTL     = 0x00000000; // Not used
    mcasp->regs->DLBCTL     = 0x00000000; // Not used
0 m& S2 A1 y" ]+ ^5 Z8 Z4 m2 Q6 u    mcasp->regs->AMUTE      = 0x00000000; // Not used
: A9 g8 M- ^# p8 d/ j. [4 b
/* Starting sections of the McASP*/
* s( e! P* Q. e2 _1 n0 e! S7 m    mcasp->regs->XGBLCTL |= GBLCTL_XHCLKRST_ON;
4 V( D. J9 _7 m4 w: d    while ( ( mcasp->regs->XGBLCTL & GBLCTL_XHCLKRST_ON ) != GBLCTL_XHCLKRST_ON );  
    mcasp->regs->RGBLCTL |= GBLCTL_RHCLKRST_ON;
! H3 l% G2 B- _* k    while ( ( mcasp->regs->RGBLCTL & GBLCTL_RHCLKRST_ON ) != GBLCTL_RHCLKRST_ON );
+ h- r) p8 D" }0 p) J% t
    mcasp->regs->XGBLCTL |= GBLCTL_XCLKRST_ON;
    while ( ( mcasp->regs->XGBLCTL & GBLCTL_XCLKRST_ON ) != GBLCTL_XCLKRST_ON );
- H5 K7 l8 B. c2 W. c/ I, L    mcasp->regs->RGBLCTL |= GBLCTL_RCLKRST_ON;
    while ( ( mcasp->regs->RGBLCTL & GBLCTL_RCLKRST_ON ) != GBLCTL_RCLKRST_ON );
) X4 n2 q& B2 U+ Q7 d" ~$ X. }
    mcasp->regs->XSTAT = 0x0000ffff;
" H! \: v7 ?" L, U5 p" B, b    mcasp->regs->RSTAT = 0x0000ffff;

0 b9 S/ M" _% C    mcasp->regs->XGBLCTL |= GBLCTL_XSRCLR_ON;
    while ( ( mcasp->regs->XGBLCTL & GBLCTL_XSRCLR_ON ) != GBLCTL_XSRCLR_ON );
    mcasp->regs->RGBLCTL |= GBLCTL_RSRCLR_ON;
; E$ i7 d. k; Z% f    while ( ( mcasp->regs->RGBLCTL & GBLCTL_RSRCLR_ON ) != GBLCTL_RSRCLR_ON );
) v2 w' B7 ]) Y# H! j; \( J
    /* Write a 0, so that no underrun occurs after releasing the state machine */
    mcasp->regs->XBUF5 = 0;
0 i$ h( T# v7 h( i9 F    mcasp->regs->RBUF0 = 0;

    mcasp->regs->XGBLCTL |= GBLCTL_XSMRST_ON;
    while ( ( mcasp->regs->XGBLCTL & GBLCTL_XSMRST_ON ) != GBLCTL_XSMRST_ON );
9 s! E& w2 }+ `0 ]    mcasp->regs->RGBLCTL |= GBLCTL_RSMRST_ON;
5 W' ^; a. G' P- k    while ( ( mcasp->regs->RGBLCTL & GBLCTL_RSMRST_ON ) != GBLCTL_RSMRST_ON );

; F/ w: ?2 C( x2 Z8 W: K* [% X    mcasp->regs->XGBLCTL |= GBLCTL_XFRST_ON;
    while ( ( mcasp->regs->XGBLCTL & GBLCTL_XFRST_ON ) != GBLCTL_XFRST_ON );
) J: r+ Z1 g( m4 _  U- U    mcasp->regs->RGBLCTL |= GBLCTL_RFRST_ON;
    while ( ( mcasp->regs->RGBLCTL & GBLCTL_RFRST_ON ) != GBLCTL_RFRST_ON );

0 W, M0 E" ?% ?1 R7 C9 h    CSR = 0x0000;
( ^! w6 f5 v4 l9 w- {0 g$ l, a    INTC_INTMUX1 = 0x3d;
    ISTP = (unsigned int)vectors;
    ICR = 0xFFF0;  
: a* l* I( h4 O9 z/ e! b    IER |= 0x12;  
/ H3 F* b5 n2 C2 U, ?8 I    CSR |= 0x01;  

, Q3 N1 N- ~! R$ d7 T- R, \

还有就是两个输入输出函数：
: C6 {5 j9 D' s+ X5 H1 |3 K6 hvoid output_sample(Int32 out_data)
{
6 Y/ {( y% W9 \* D  AIC31_data.uint = out_data;  
  MCASP1_XBUF5_32BIT = AIC31_data.uint;
0 S& n/ ^8 b+ [}
& c6 n( X0 Z8 h: s& z5 S% L
# K/ W0 p$ Y: e* dInt32 input_sample(void)
/ L6 @5 q  Q& s+ b( R2 _, K+ [{  
  AIC31_data.uint = MCASP1_RBUF0_32BIT;
+ c4 j, E6 j' k" `  return (AIC31_data.uint);
5 O% x0 m% D! U" \. f}
% ?* |; c( F; W+ _4 b: L5 ]% Z

human

可以参看创龙提供的例程：AUDIO_LINE_OUT_INTR——Line Out 音频输出（中断方式）