ref: 1fe3143e4c43ce2c74e0cfdd70b1bd556bbb9e1b
dir: /sys/src/9/cycv/dma.c/
#include "u.h" #include "../port/lib.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "ureg.h" #include "../port/error.h" #define dmar ((ulong*)DMAS_BASE) enum { DSR = 0x000, DPC = 0x004/4, INTEN = 0x20 / 4, INT_EVENT_RIS = 0x024 / 4, INTMIS = 0x028 / 4, INTCLR = 0x02C / 4, FSRD = 0x030 / 4, FSRC = 0x034 / 4, FTRD = 0x038 / 4, DBGSTATUS = 0xD00 / 4, DBGCMD = 0xD04 / 4, DBGINST0 = 0xD08 / 4, DBGINST1 = 0xD0C / 4, CR0 = 0xE00 / 4, CR1, CR2, CR3, CR4, CRD, WD = 0xE80 / 4, }; enum { DMAStopped, DMAExecuting, DMACacheMiss, DMAUpdatingPC, DMAWaitingForEvent, DMAAtBarrier, DMAWaitingForPeripheral = 7, DMAKilling, DMACompleting, DMAFaultingCompleting=14, DMAFaulting, }; #define FTR(n) dmar[(0x40/4 + (n))] #define CSR(n) dmar[(0x100/4 + (n)*2)] #define CPC(n) dmar[(0x104/4 + (n)*2)] #define SAR(n) dmar[(0x400/4 + (n)*8)] #define DAR(n) dmar[(0x404/4 + (n)*8)] #define CCR(n) dmar[(0x408/4 + (n)*8)] #define LC0(n) dmar[(0x40C/4 + (n)*8)] #define LC1(n) dmar[(0x410/4 + (n)*8)] #define DST_BURST(n) (((n)-1&0xf)<<18) #define DST_BEAT_1 (0) #define DST_BEAT_2 (1<<15) #define DST_BEAT_4 (2<<15) #define DST_BEAT_8 (3<<15) #define DST_BEAT_16 (4<<15) #define SRC_BURST(n) (((n)-1&0xf)<<4) #define SRC_BEAT_1 (0) #define SRC_BEAT_2 (1<<1) #define SRC_BEAT_4 (2<<1) #define SRC_BEAT_8 (3<<1) #define SRC_BEAT_16 (4<<1) #define dmaMOV_SARn 0x00bc #define dmaMOV_CCRn 0x01bc #define dmaMOV_DARn 0x02bc #define dmaLP0(n) (((n)-1&0xff)<<8|0x20) #define dmaLP1(n) (((n)-1&0xff)<<8|0x22) #define dmaLPEND0(n) (((n)&0xff)<<8|0x38) #define dmaLPEND1(n) (((n)&0xff)<<8|0x3c) #define dmaLD 0x04 #define dmaST 0x08 #define dmaSEV(n) (((n)&31)<<11|0x34) #define dmaEND 0x00 #define dmaWMB 0x13 static QLock dmalock; static Rendez dmarend; static int finished; static ulong code[64]; static int isfinished(void *) { return finished; } static void dmairq(Ureg *, void *) { dmar[INTCLR] = -1; finished = 1; wakeup(&dmarend); } static void compactify(ulong *lp) { uchar *p, *q; q = p = (uchar *) lp; for(;;){ switch(*p){ case 0xbc: q[0] = p[0]; q[1] = p[1]; q[2] = p[4]; q[3] = p[5]; q[4] = p[6]; q[5] = p[7]; q += 6; p += 8; break; case 0x20: case 0x22: case 0x38: case 0x3c: case 0x34: q[0] = p[0]; q[1] = p[1]; q += 2; p += 4; break; case 0x04: case 0x08: case 0x13: q[0] = p[0]; q++; p += 4; break; case 0x00: q[0] = 0; return; default: panic("DMA: unknown opcode %.2x", *p); } } } #define BURST(n) *p++ = dmaMOV_CCRn, *p++ = DST_BEAT_4 | SRC_BEAT_4 | SRC_BURST(n) | DST_BURST(n) | attr void dmacopy(void *dst, void *src, ulong n, int attr) { ulong *p; assert((n & 3) == 0 && ((uintptr)src & 3) == 0 && ((uintptr)dst & 3) == 0); while(n > (1<<22)){ dmacopy(dst, src, 1<<22, attr); if((attr & SRC_INC) != 0) src = (uchar*)src + (1<<22); if((attr & DST_INC) != 0) dst = (uchar*)dst + (1<<22); } if(n == 0) return; qlock(&dmalock); p = code; *p++ = dmaMOV_SARn; *p++ = PADDR(src); *p++ = dmaMOV_DARn; *p++ = PADDR(dst); if((n >> 6) >= 1){ BURST(16); if((n>>14) >= 1){ if((n>>14) > 1) *p++ = dmaLP0(n >> 14); *p++ = dmaLP1(256); *p++ = dmaLD; *p++ = dmaST; *p++ = dmaLPEND1(2); if((n>>14) > 1) *p++ = dmaLPEND0(6); n &= (1<<14)-1; } if((n >> 6) >= 1){ if((n>>6) > 1) *p++ = dmaLP0(n >> 6); *p++ = dmaLD; *p++ = dmaST; if((n>>6) > 1) *p++ = dmaLPEND0(2); n &= 63; } } if(n >= 4){ BURST(n>>2); *p++ = dmaLD; *p++ = dmaST; } *p++ = dmaWMB; *p++ = dmaSEV(0); *p = dmaEND; compactify(code); if((CSR(0) & 0xf) != DMAStopped){ while((dmar[DBGSTATUS] & 1) != 0) tsleep(&up->sleep, return0, nil, 1); dmar[DBGINST0] = 0x1 << 16 | 1; dmar[DBGCMD] = 0; while((dmar[DBGSTATUS] & 1) != 0) tsleep(&up->sleep, return0, nil, 1); while((CSR(0) & 0xf) != DMAStopped) tsleep(&up->sleep, return0, nil, 1); } cleandse(code, code + nelem(code)); while((dmar[DBGSTATUS] & 1) != 0) tsleep(&up->sleep, return0, nil, 1); dmar[DBGINST0] = 0xa0 << 16; dmar[DBGINST1] = PADDR(code); finished = 0; dmar[DBGCMD] = 0; while(!finished) sleep(&dmarend, isfinished, nil); qunlock(&dmalock); } static void dmaabort(Ureg *, void *) { int i; if((dmar[FSRD] & 1) != 0){ iprint("dma: manager fault: "); if((dmar[FTRD] & 1<<30) != 0) iprint("debug instruction, "); if((dmar[FTRD] & 1<<16) != 0) iprint("instruction fetch error, "); if((dmar[FTRD] & 1<<5) != 0) iprint("event security violation, "); if((dmar[FTRD] & 1<<4) != 0) iprint("DMAGO security violation, "); if((dmar[FTRD] & 1<<1) != 0) iprint("operand invalid, "); if((dmar[FTRD] & 1<<0) != 0) iprint("undefined instruction, "); iprint("\n"); } for(i = 0; i < 8; i++){ if((dmar[FSRC] & 1<<i) == 0) continue; iprint("dma: channel %d fault\n", i); iprint("code = %.8p, PC = %.8ulx\n", code, CPC(i)); iprint("CCRn = %.8ulx, CSRn = %.8ulx\n", CCR(i), CSR(i)); iprint("LC0 = %.2ulx, LC1 = %.2ulx\n", LC0(i), LC1(i)); if((FTR(i) & 1<<31) != 0) iprint("insufficient resources, "); if((FTR(i) & 1<<30) != 0) iprint("debug instruction, "); if((FTR(i) & 1<<18) != 0) iprint("read error, "); if((FTR(i) & 1<<17) != 0) iprint("write error, "); if((FTR(i) & 1<<16) != 0) iprint("instruction fetch error, "); if((FTR(i) & 1<<13) != 0) iprint("FIFO underflow, "); if((FTR(i) & 1<<12) != 0) iprint("FIFO error, "); if((FTR(i) & 1<<7) != 0) iprint("CCRn security violation, "); if((FTR(i) & 1<<6) != 0) iprint("peripheral security violation, "); if((FTR(i) & 1<<5) != 0) iprint("event security violation, "); if((FTR(i) & 1<<4) != 0) iprint("DMAGO security violation, "); if((FTR(i) & 1<<1) != 0) iprint("operand invalid, "); if((FTR(i) & 1<<0) != 0) iprint("undefined instruction, "); iprint("\n"); } panic("DMA fault"); } void dmalink(void) { dmar[INTEN] = 1; intrenable(DMAIRQ0, dmairq, nil, LEVEL, "dma"); intrenable(DMAABORTIRQ, dmaabort, nil, LEVEL, "dma_abort"); }