ref: b548687a8ed1d0a159c9d3f3f921d93bbb56908e
dir: /os/boot/zynq/jtagload.c/
#include <u.h> #include <libc.h> typedef struct Tap Tap; typedef struct Dap Dap; struct Tap { int off; int len; int delay; u32int id; u32int dapsel; }; struct Dap { Tap *tap; uint port; u32int id; }; int dfd = -1; int lastbit = -1; int irlen; int ntaps; Tap* taps; int ndaps; Dap* daps; Dap* ahbap; Dap* apbap; /* MPSSE command bits */ enum { FEW = 1<<0, /* -ve CLK on write */ BITS = 1<<1, /* bits or bytes */ FER = 1<<2, /* -ve CLK on read */ LSB = 1<<3, /* LSB first = 1 else MSB first */ TDI = 1<<4, /* do write TDI */ TDO = 1<<5, /* do read TDO */ TMS = 1<<6, /* do write TMS */ }; void ioinit(char *dev) { uchar b[3]; dfd = open(dev, ORDWR); if(dfd < 0) sysfatal("open: %r"); b[0] = 0x80; b[1] = 0x08; b[2] = 0x0B; write(dfd, b, 3); } void io(int cmd, int len, uchar *dat) { uchar buf[64]; uchar *p = buf; *p++ = cmd; *p++ = len-1; if((cmd & BITS) != 0) len = 1; else *p++ = (len-1)>>8; if((cmd & (TDI|TMS)) != 0){ memmove(p, dat, len); p += len; } if(write(dfd, buf, p - buf) != (p - buf)) sysfatal("io write: %r"); if((cmd & TDO) != 0) if(readn(dfd, dat, len) != len) sysfatal("io read: %r"); } void dstate(u32int s, int len) { uchar b[1]; assert(len < 8); b[0] = s; if(lastbit != -1){ b[0] |= lastbit << 7; lastbit = -1; } io(TMS|LSB|BITS|FEW, len, b); } uvlong dshift(uvlong w, int len) { uchar b[8]; int c, s, n; c = TDI|LSB|FEW; if(len < 0){ len = -len; c |= TDO; } s = 0; n = len/8; if(n > 0) { switch(n){ case 8: b[7] = w >> 56; case 7: b[6] = w >> 48; case 6: b[5] = w >> 40; case 5: b[4] = w >> 32; case 4: b[3] = w >> 24; case 3: b[2] = w >> 16; case 2: b[1] = w >> 8; case 1: b[0] = w >> 0; } io(c, n, b); s = n*8; if((c & TDO) != 0){ w &= ~((1ULL<<s)-1); switch(n){ case 8: w |= (uvlong)b[7] << 56; case 7: w |= (uvlong)b[6] << 48; case 6: w |= (uvlong)b[5] << 40; case 5: w |= (uvlong)b[4] << 32; case 4: w |= (uvlong)b[3] << 24; case 3: w |= (uvlong)b[2] << 16; case 2: w |= (uvlong)b[1] << 8; case 1: w |= (uvlong)b[0] << 0; } } len -= s; } if(len > 0){ b[0] = w >> s; c |= BITS; io(c, len, b); if((c & TDO) != 0){ w &= ~((uvlong)((1<<len)-1) << s); w |= (uvlong)(b[0] >> 8-len) << s; } s += len; } return w & (1ULL<<s)-1; } void dshiftones(int len) { while(len >= 64){ dshift(~0ULL, 64); len -= 64; } dshift(~0ULL, len); } int dshiftdelay(void) { int i; /* send ones */ dshiftones(512); for(i=0; i<512; i++){ if(dshift(i != 0, -1) == 0) return i; } return 0; } void irw(Tap *tap, uvlong w) { /* 0011 -> Shift-IR */ dstate(0x3, 4); dshiftones(tap->off); if((tap->off + tap->len) == irlen){ dshift(w, tap->len-1); lastbit = w >> (tap->len-1); } else { dshift(w, tap->len); dshiftones(irlen - (tap->off + tap->len-1)); lastbit = 1; } /* 011 -> Idle */ dstate(0x3, 3); } uvlong drr(Tap *tap, int len) { uvlong w, d; /* 001 -> Shift-DR */ dstate(0x1, 3); d = dshift(0, -tap->delay); w = dshift(0, -len); dshift(d, tap->delay); dshift(w, len-1); lastbit = (w >> len-1) & 1; /* 011 -> Idle */ dstate(0x3, 3); return w; } void drw(Tap *tap, uvlong w, int len) { /* 001 -> Shift-DR */ dstate(0x1, 3); dshift(0, tap->delay); dshift(w, len-1); lastbit = (w >> len-1) & 1; /* 011 -> Idle */ dstate(0x3, 3); } enum { ABORT = 0x8, DPACC = 0xA, APACC = 0xB, CTRLSTAT = 0x4, SELECT = 0x8, RDBUF = 0xC, }; u32int dapr(Dap *dap, uchar r, uchar a) { uvlong w; irw(dap->tap, r); w = 1 | (a >> 1) & 0x6; drw(dap->tap, w, 35); do { w = drr(dap->tap, 35); } while((w & 7) == 1); return w >> 3; } void dapw(Dap *dap, uchar r, uchar a, u32int v) { uvlong w; irw(dap->tap, r); w = (a >> 1) & 0x6; w |= (uvlong)v << 3; drw(dap->tap, w, 35); } void app(Dap *dap) { enum { CSYSPWRUPACK = 1<<31, CSYSPWRUPREQ = 1<<30, CDBGPWRUPACK = 1<<29, CDBGPWRUPREQ = 1<<28, CDBGRSTACK = 1<<27, CDBGRSTREQ = 1<<26, }; u32int s; for(;;){ s = dapr(dap, DPACC, CTRLSTAT); if((s & (CDBGPWRUPACK|CSYSPWRUPACK)) == (CDBGPWRUPACK|CSYSPWRUPACK)) break; s |= CSYSPWRUPREQ|CDBGPWRUPREQ; dapw(dap, DPACC, CTRLSTAT, s); } } void apa(Dap *dap, uchar a) { u32int s; s = dap->port<<24 | a&0xf0; if(s != dap->tap->dapsel){ dap->tap->dapsel = s; dapw(dap, DPACC, SELECT, s); app(dap); } } u32int apr(Dap *dap, uchar a) { apa(dap, a); return dapr(dap, APACC, a&0xC); } void apw(Dap *dap, uchar a, u32int v) { apa(dap, a); dapw(dap, APACC, a&0xC, v); } u32int mmr(Dap *ap, u32int addr) { apw(ap, 0x4, addr); return apr(ap, 0xC); } void mmw(Dap *ap, u32int addr, u32int val) { apw(ap, 0x4, addr); apw(ap, 0xC, val); } void tapreset(void) { int i, j, o; dstate(0x1F, 6); /* 011111 -> Reset->Idle */ dstate(0x3, 4); /* 0011 -> Shift-IR */ irlen = dshiftdelay(); lastbit = 1; dstate(0x7, 5); /* 00111 -> Shift-IR->Shift-DR */ ntaps = dshiftdelay(); dstate(0x1F, 6); /* 011111 -> Reset->Idle */ dstate(0x1, 3); /* 001 -> Shift-DR */ taps = realloc(taps, sizeof(taps[0]) * ntaps); o = 0; for(i=ntaps-1; i>=0; i--){ taps[i].delay = ntaps - i - 1; taps[i].off = o; taps[i].id = dshift(0, -32); switch(taps[i].id){ default: sysfatal("unknown tapid %.8ux\n", taps[i].id); case 0x03727093: case 0x0373b093: case 0x23727093: taps[i].len = 6; break; case 0x4ba00477: taps[i].len = 4; break; } o += taps[i].len; } dstate(0x1F, 6); /* 011111 -> Reset->Idle */ if(o != irlen) sysfatal("wrong tapchain irlen %d %d\n", o, irlen); ndaps = 0; for(i=0; i<ntaps; i++){ fprint(2, "tap%d: id=%.8ux off=%d len=%d delay=%d\n", i, taps[i].id, taps[i].off, taps[i].len, taps[i].delay); switch(taps[i].id){ case 0x4ba00477: o = 3; daps = realloc(daps, sizeof(daps[0]) * (ndaps+o)); for(j=0; j<o; j++){ daps[ndaps].tap = taps+i; daps[ndaps].port = j; daps[ndaps].id = apr(daps+ndaps, 0xFC); fprint(2, "\tdap%d: id=%.8ux\n", j, daps[ndaps].id); ndaps++; } break; } } for(i=0; i<ndaps; i++){ switch(daps[i].id){ case 0x44770001: ahbap = daps+i; break; case 0x24770002: apbap = daps+i; break; } } } enum { DBGDIDR = 0x000, DBGDEVID = 0xFC8, DBGDSCR = 0x088, RXfull = 1<<30, TXfull = 1<<29, RXfull_1 = 1<<27, TXfull_1 = 1<<26, PipeAdv = 1<<25, InstrCompl_1 = 1<<24, ExtDCCmodeShift = 20, ExtDCCmodeMask = 3<<ExtDCCmodeShift, ADAdiscard = 1<<19, NS = 1<<18, SPNIDdis = 1<<17, SPIDdis = 1<<16, MDBGen = 1<<15, HDBGen = 1<<14, ITRen = 1<<13, UDCCdis = 1<<12, INTdis = 1<<11, DBGack = 1<<10, UND_1 = 1<<8, ADABORT_1 = 1<<7, SDABORT_1 = 1<<6, MOEShift = 2, MOEMask = 15<<MOEShift, RESTARTED = 1<<1, HALTED = 1<<0, DBGDRCR = 0x90, RestartReq = 1<<1, HaltReq = 1<<0, DBGPRCR = 0x310, DBGITR = 0x084, /* Instruction Transfer Register */ DBGDTRRX = 0x080, /* Host to Target Data Transfer Register */ DBGDTRTX = 0x08C, /* Target to Host Data Transfer Register */ }; typedef struct Arm Arm; struct Arm { u32int dbgbase; Dap *dbgap; Dap *memap; char *id; }; Arm arm[2]; u32int dbgr(Arm *arm, u32int reg) { return mmr(arm->dbgap, arm->dbgbase+reg); } void dbgw(Arm *arm, u32int reg, u32int val) { mmw(arm->dbgap, arm->dbgbase+reg, val); } u32int dbgrpoll(Arm *arm, u32int reg, u32int mask, u32int val) { u32int w; for(;;){ w = dbgr(arm, reg); if((w & mask) == val) break; } return w; } void startstop(Arm *arm, int stop) { u32int s; s = dbgr(arm, DBGDSCR); if((s & HALTED) != stop){ if(!stop){ s &= ~ITRen; dbgw(arm, DBGDSCR, s); } dbgw(arm, DBGDRCR, stop ? HaltReq : RestartReq); s = dbgrpoll(arm, DBGDSCR, HALTED, stop); if(stop){ s |= ITRen; dbgw(arm, DBGDSCR, s); } fprint(2, "%s: startstop: %.8ux\n", arm->id, s); } } void armxec(Arm *arm, u32int instr) { dbgw(arm, DBGITR, instr); dbgrpoll(arm, DBGDSCR, InstrCompl_1, InstrCompl_1); } #define ARMV4_5_MRC(CP, op1, Rd, CRn, CRm, op2) \ (0xee100010 | (CRm) | ((op2) << 5) | ((CP) << 8) \ | ((Rd) << 12) | ((CRn) << 16) | ((op1) << 21)) #define ARMV4_5_MCR(CP, op1, Rd, CRn, CRm, op2) \ (0xee000010 | (CRm) | ((op2) << 5) | ((CP) << 8) \ | ((Rd) << 12) | ((CRn) << 16) | ((op1) << 21)) void trrxw(Arm *arm, u32int val) { dbgrpoll(arm, DBGDSCR, RXfull_1, 0); dbgw(arm, DBGDTRRX, val); } u32int trtxr(Arm *arm) { dbgrpoll(arm, DBGDSCR, TXfull_1, TXfull_1); return dbgr(arm, DBGDTRTX); } void armrw(Arm *arm, int reg, u32int val); u32int armrr(Arm *arm, int rn) { if(rn == 15){ u32int r0; r0 = armrr(arm, 0); armxec(arm, 0xE1A0000F); armxec(arm, ARMV4_5_MCR(14, 0, 0, 0, 5, 0)); armrw(arm, 0, r0); } else { armxec(arm, ARMV4_5_MCR(14, 0, rn, 0, 5, 0)); } return trtxr(arm); } void armrw(Arm *arm, int rn, u32int val) { if(rn == 15){ u32int r0; r0 = armrr(arm, 0); armrw(arm, 0, val); armxec(arm, 0xE1A0F000); armrw(arm, 0, r0); } else { trrxw(arm, val); armxec(arm, ARMV4_5_MRC(14, 0, rn, 0, 5, 0)); } } /* * mww phys 0xf8000008 0xdf0d * mww phys 0xf8000910 0xf * load_image "/sys/src/boot/zynq/fsbl" 0xfffc0000 bin * reg pc 0xfffc0000 */ void boot(char *file, u32int entry) { u32int *buf, *src; int fd, size; u32int dst; fprint(2, "load %s", file); if((fd = open(file, OREAD)) < 0) sysfatal("open: %r"); size = seek(fd, 0, 2); fprint(2, " [%ud]", size); seek(fd, 0, 0); buf = malloc((size+3) & ~3); if(readn(fd, buf, size) != size) sysfatal("read: %r"); close(fd); /* map ocm */ mmw(arm->memap, 0xf8000008, 0xdf0d); mmw(arm->memap, 0xf8000910, 0xf); src = buf; for(dst = entry; size > 0; dst += 4, size -= 4){ if((dst & 0xF) == 0) fprint(2, "."); mmw(arm->memap, dst, *src++); } free(buf); fprint(2, ".\nentry %.8ux\n", entry); armrw(arm, 15, entry); } void usage(void) { fprint(2, "%s [ -j jtagdev ] entry image\n", argv0); exits("usage"); } void main(int argc, char *argv[]) { char *jtag = "/dev/jtagddd94.0"; char *image; u32int entry; fmtinstall('H', encodefmt); ARGBEGIN { case 'j': jtag = EARGF(usage()); break; default: usage(); } ARGEND; if(argc != 2) usage(); entry = strtoul(argv[0], nil, 0); image = argv[1]; ioinit(jtag); tapreset(); arm[0].dbgbase = 0x80090000; arm[0].dbgap = apbap; arm[0].memap = ahbap; arm[0].id = "arm0"; arm[1].dbgbase = 0x80092000; arm[1].dbgap = apbap; arm[1].memap = ahbap; arm[1].id = "arm1"; startstop(arm+0, 1); startstop(arm+1, 1); boot(image, entry); startstop(arm+0, 0); startstop(arm+1, 0); exits(nil); }