ref: 0aae832ac3f3ae5d136563e980e9c32ceb0d1444
dir: /sys/src/9/pc/pmmc.c/
/* * pci mmc controller. * * initially written for X230 Ricoh MMC controller. * * for sdhc documentation see: https://www.sdcard.org/ */ #include "u.h" #include "../port/lib.h" #include "../port/error.h" #include "mem.h" #include "dat.h" #include "fns.h" #include "io.h" #include "../port/pci.h" #include "../port/sd.h" /* registers */ enum { Rsdma = 0x00, Rbsize = 0x04, Rbcount = 0x06, Rarg = 0x08, Rmode = 0x0C, Rcmd = 0x0E, Rresp0 = 0x10, Rresp1 = 0x14, Rresp2 = 0x18, Rresp3 = 0x1C, Rdat0 = 0x20, Rdat1 = 0x22, Rpres = 0x24, Rhc = 0x28, Rpwr = 0x29, Rbgc = 0x2A, Rwkc = 0x2B, Rclc = 0x2C, Rtmc = 0x2E, Rsrst = 0x2F, Rnis = 0x30, Reis = 0x32, Rnie = 0x34, Reie = 0x36, Rnise = 0x38, Reise = 0x3A, Ra12 = 0x3C, Rcap = 0x40, Rrcap = 0x44, Rxcap = 0x48, Rrxcap = 0x4C, Rfea12 = 0x50, Rfeei = 0x52, Radmasr = 0x54, Radmaba = 0x58, Rsists = 0xFC, Rhcver = 0xFE, }; /* sts bits */ enum { Seint = 1<<15, Snint = 1<<8, Srem = 1<<7, Sins = 1<<6, Srrdy = 1<<5, Swrdy = 1<<4, Sdint = 1<<3, Sbge = 1<<2, Strac = 1<<1, Scmdc = 1<<0, Smask = 0x81ff, }; /* err bits */ enum { Ea12 = 1<<8, Elimit = 1<<7, Edebit = 1<<6, Edcrc = 1<<5, Edtmo = 1<<4, Ecidx = 1<<3, Ecebit = 1<<2, Eccrc = 1<<1, Ectmo = 1<<0, Emask = 0x1ff, }; /* present bits */ enum { Plsig = 1<<24, Pldat3 = 1<<23, Pldat2 = 1<<22, Pldat1 = 1<<21, Pldat0 = 1<<20, Ppswit = 1<<19, Pcrddt = 1<<18, Pcrdst = 1<<17, Pcrdin = 1<<16, Pbufrd = 1<<11, Pbufwr = 1<<10, Ptrard = 1<<9, Ptrawr = 1<<8, Pdat = 1<<2, Pinhbc = 1<<1, Pinhbd = 1<<0, }; /* Rmode bits */ enum { Mblk = 1<<5, Mrd = 1<<4, Mwr = 0<<4, Ma12 = 1<<2, Mcnt = 1<<1, Mdma = 1<<0, }; /* command bits */ enum { Abort = 3<<6, Isdata = 1<<5, Ixchken = 1<<4, Crcchken = 1<<3, Respmask = 3, Respnone = 0, Resp48busy = 3, Resp48 = 2, Resp136 = 1, }; typedef struct Ctlr Ctlr; struct Ctlr { Lock; Pcidev *pdev; u8int *mmio; int change; u32int waitsts; u32int waitmsk; Rendez r; struct { int bcount; int bsize; } io; }; #define CR8(c, off) *((u8int*)(c->mmio + off)) #define CR16(c, off) *((u16int*)(c->mmio + off)) #define CR32(c, off) *((u32int*)(c->mmio + off)) static void mmcinterrupt(Ureg*, void *arg) { u16int nis, eis; Ctlr *c; c = arg; nis = CR16(c, Rnis); if((nis & Smask) == 0) return; /* not for us */ CR16(c, Rnis) = nis; /* ack */ ilock(c); eis = 0; if((nis & Seint) != 0){ eis = CR16(c, Reis); CR16(c, Reis) = eis; /* ack */ } if((nis & Snint) != 0) CR16(c, Rnie) |= Snint; /* ack */ if((nis & (Srem|Sins)) != 0) c->change = 1; c->waitsts |= nis | (eis << 16); if((c->waitsts & c->waitmsk) != 0) wakeup(&c->r); iunlock(c); } static int pmmcinit(SDio *io) { static Pcidev *p; Ctlr *c; while((p = pcimatch(p, 0, 0)) != nil){ if(p->mem[0].size < 256 || (p->mem[0].bar & 1) != 0) continue; if(p->ccrb == 8 && p->ccru == 5) break; if(p->vid == 0x1180){ /* Ricoh */ if(p->did == 0xe822) /* 5U822 SD/MMC */ break; if(p->did == 0xe823) /* 5U823 SD/MMC */ break; } } if(p == nil) return -1; c = malloc(sizeof(Ctlr)); if(c == nil) return -1; c->mmio = vmap(p->mem[0].bar & ~0x0F, p->mem[0].size); if(c->mmio == nil){ free(c); return -1; } c->pdev = p; io->aux = c; pcienable(p); if(p->did == 0x1180 && p->vid == 0xe823){ /* Ricoh */ /* Enable SD2.0 mode. */ pcicfgw8(p, 0xf9, 0xfc); pcicfgw8(p, 0x150, 0x10); pcicfgw8(p, 0xf9, 0x00); /* * Some SD/MMC cards don't work with the default base * clock frequency of 200MHz. Lower it to 50Hz. */ pcicfgw8(p, 0xfc, 0x01); pcicfgw8(p, 0xe1, 50); pcicfgw8(p, 0xfc, 0x00); } /* probe again for next device */ return 1; } static int pmmcinquiry(SDio*, char *inquiry, int inqlen) { return snprint(inquiry, inqlen, "MMC Host Controller"); } static void softreset(Ctlr *c, int all) { int i, m; m = all ? 1 : 6; CR8(c, Rsrst) = m; for(i=100; i>=0; i--){ if((CR8(c, Rsrst) & m) == 0) break; delay(1); CR8(c, Rsrst) = 0; } if(i < 0) iprint("mmc: didnt reset\n"); } static void setpower(Ctlr *c, int on) { enum { Vcap18 = 1<<26, Vset18 = 0x05, Vcap30 = 1<<25, Vset30 = 0x06, Vcap33 = 1<<24, Vset33 = 0x07, }; u32int cap, v; cap = CR32(c, Rcap); v = Vset18; if(cap & Vcap30) v = Vset30; if(cap & Vcap33) v = Vset33; CR8(c, Rpwr) = on ? ((v<<1) | 1) : 0; } static void setclkfreq(Ctlr *c, uint hz) { u32int caps, clk, div; int i; if(hz == 0){ CR16(c, Rclc) |= ~4; /* sd clock disable */ return; } caps = CR32(c, Rcap); clk = 1000000*((caps >> 8) & 0xff); for(div = 2; div < 256; div *= 2){ if((clk / div) <= hz) break; } // iprint("setclkfreq %ud = %ud / %d = %ud Hz\n", hz, clk, div, clk / div); CR16(c, Rclc) = 0; CR16(c, Rclc) = (div/2)<<8; CR16(c, Rclc) |= 1; /* int clock enable */ for(i=1000; i>=0; i--){ if(CR16(c, Rclc) & 2) /* int clock stable */ break; delay(10); } if(i < 0) iprint("mmc: clock didnt stabilize\n"); CR16(c, Rclc) |= 4; /* sd clock enable */ } static void resetctlr(Ctlr *c) { u32int m; ilock(c); CR16(c, Rnise) = 0; /* interrupts off */ c->change = 0; c->waitmsk = c->waitsts = 0; softreset(c, 1); /* set timeout */ CR8(c, Rtmc) = 0x0e; m = Srem | Sins | Srrdy | Swrdy | Sdint | Sbge | Strac | Scmdc; CR16(c, Rnie) = m; CR16(c, Reie) = Emask; CR16(c, Rnise) = m; CR16(c, Reise) = Emask; setpower(c, 1); setclkfreq(c, 400000); iunlock(c); } static int waitcond(void *arg) { Ctlr *c = arg; return (c->waitsts & c->waitmsk) != 0; } static u32int intrwait(Ctlr *c, u32int mask, int tmo) { u32int status; ilock(c); c->waitmsk = Seint | mask; iunlock(c); do { if(!waserror()){ tsleep(&c->r, waitcond, c, 100); poperror(); } mmcinterrupt(nil, c); if(waitcond(c)) break; tmo -= 100; } while(tmo > 0); ilock(c); c->waitmsk = 0; status = c->waitsts; c->waitsts &= ~(status & mask); if((status & mask) == 0 || (status & Seint) != 0){ /* abort command on timeout/error interrupt */ softreset(c, 0); c->waitsts = 0; status = 0; } iunlock(c); return status & mask; } static void pmmcenable(SDio *io) { Ctlr *c = io->aux; Pcidev *p = c->pdev; resetctlr(c); intrenable(p->intl, mmcinterrupt, c, p->tbdf, io->name); } static int pmmccmd(SDio *io, SDiocmd *iocmd, u32int arg, u32int *resp) { Ctlr *c = io->aux; u32int cmd, mode, status; int i; // print("pmmccmd: %s (%ux)\n", iocmd->name, arg); cmd = (u32int)iocmd->index << 8; switch(iocmd->resp){ case 0: cmd |= Respnone; break; case 1: if(iocmd->busy){ cmd |= Resp48busy | Ixchken | Crcchken; break; } default: cmd |= Resp48 | Ixchken | Crcchken; break; case 2: cmd |= Resp136 | Crcchken; break; case 3: cmd |= Resp48; break; } mode = 0; if(iocmd->data){ cmd |= Isdata; if(iocmd->data & 1) mode |= Mrd; else mode |= Mwr; if(iocmd->data > 2) mode |= Mcnt | Mblk; } if(c->change) resetctlr(c); if((CR32(c, Rpres) & Pcrdin) == 0) error("no card"); status = Pinhbc; if((cmd & Isdata) != 0 || (cmd & Respmask) == Resp48busy) status |= Pinhbd; for(i=100; (CR32(c, Rpres) & status) != 0 && i>=0; i--) tsleep(&up->sleep, return0, nil, 10); if(i < 0) error(Eio); ilock(c); if((mode & (Mcnt|Mblk)) == (Mcnt|Mblk)){ CR16(c, Rbsize) = c->io.bsize; CR16(c, Rbcount) = c->io.bcount; } CR32(c, Rarg) = arg; CR16(c, Rmode) = mode; CR16(c, Rcmd) = cmd; iunlock(c); if(!intrwait(c, Scmdc, 1000)) error(Eio); switch(cmd & Respmask){ case Resp48busy: resp[0] = CR32(c, Rresp0); if(!intrwait(c, Strac, 3000)) error(Eio); break; case Resp48: resp[0] = CR32(c, Rresp0); break; case Resp136: resp[0] = CR32(c, Rresp0)<<8; resp[1] = CR32(c, Rresp0)>>24 | CR32(c, Rresp1)<<8; resp[2] = CR32(c, Rresp1)>>24 | CR32(c, Rresp2)<<8; resp[3] = CR32(c, Rresp2)>>24 | CR32(c, Rresp3)<<8; break; case Respnone: resp[0] = 0; break; } return 0; } static void pmmciosetup(SDio *io, int write, void *buf, int bsize, int bcount) { Ctlr *c = io->aux; USED(write); USED(buf); if(bsize == 0 || (bsize & 3) != 0) error(Egreg); c->io.bsize = bsize; c->io.bcount = bcount; } static void readblock(Ctlr *c, uchar *buf, int len) { for(len >>= 2; len > 0; len--){ *((u32int*)buf) = CR32(c, Rdat0); buf += 4; } } static void writeblock(Ctlr *c, uchar *buf, int len) { for(len >>= 2; len > 0; len--){ CR32(c, Rdat0) = *((u32int*)buf); buf += 4; } } static void pmmcio(SDio *io, int write, uchar *buf, int len) { Ctlr *c = io->aux; int n; if(len != c->io.bsize*c->io.bcount) error(Egreg); while(len > 0){ if(!intrwait(c, write ? Swrdy : Srrdy, 3000)) error(Eio); n = len; if(n > c->io.bsize) n = c->io.bsize; if(write) writeblock(c, buf, n); else readblock(c, buf, n); len -= n; buf += n; } if(!intrwait(c, Strac, 1000)) error(Eio); } static void pmmcbus(SDio *io, int width, int speed) { Ctlr *c = io->aux; ilock(c); switch(width){ case 1: CR8(c, Rhc) &= ~2; break; case 4: CR8(c, Rhc) |= 2; break; } if(speed) setclkfreq(c, speed); iunlock(c); } void pmmclink(void) { static SDio io = { "pmmc", pmmcinit, pmmcenable, pmmcinquiry, pmmccmd, pmmciosetup, pmmcio, pmmcbus, }; addmmcio(&io); }