static uint _sb_scan(si_info_t *sii, u32 sba, void *regs, uint bus, u32 sbba,
uint numcores)
{
uint next;
uint ncc = 0;
uint i;
if (bus >= SB_MAXBUSES) {
SI_ERROR(("_sb_scan: bus 0x%08x at level %d is too deep to "
"scan\n", sbba, bus));
return 0;
}
SI_MSG(("_sb_scan: scan bus 0x%08x assume %u cores\n",
sbba, numcores));
/* Scan all cores on the bus starting from core 0.
* Core addresses must be contiguous on each bus.
*/
for (i = 0, next = sii->numcores;
i < numcores && next < SB_BUS_MAXCORES; i++, next++) {
sii->coresba[next] = sbba + (i * SI_CORE_SIZE);
/* change core to 'next' and read its coreid */
sii->curmap = _sb_setcoreidx(sii, next);
sii->curidx = next;
sii->coreid[next] = sb_coreid(&sii->pub);
/* core specific processing... */
/* chipc provides # cores */
if (sii->coreid[next] == CC_CORE_ID) {
chipcregs_t *cc = (chipcregs_t *) sii->curmap;
u32 ccrev = sb_corerev(&sii->pub);
/* determine numcores - this is the
total # cores in the chip */
if (((ccrev == 4) || (ccrev >= 6)))
numcores =
(R_REG(sii->osh, &cc->chipid) & CID_CC_MASK)
>> CID_CC_SHIFT;
else {
/* Older chips */
SI_ERROR(("sb_chip2numcores: unsupported chip "
"0x%x\n", sii->pub.chip));
ASSERT(0);
numcores = 1;
}
SI_VMSG(("_sb_scan: %u cores in the chip %s\n",
numcores, sii->pub.issim ? "QT" : ""));
}
/* generic kernel variant of si_attach() */
si_t *
si_kattach(osl_t *osh)
{
static bool ksii_attached = FALSE;
if (!ksii_attached) {
void *regs = REG_MAP(SI_ENUM_BASE, SI_CORE_SIZE);
if (si_doattach(&ksii, BCM4710_DEVICE_ID, osh, regs,
SI_BUS, NULL,
osh != SI_OSH ? &ksii.vars : NULL,
osh != SI_OSH ? &ksii.varsz : NULL) == NULL) {
if (NULL != ksii.common_info)
MFREE(osh, ksii.common_info, sizeof(si_common_info_t));
SI_ERROR(("si_kattach: si_doattach failed\n"));
REG_UNMAP(regs);
return NULL;
}
REG_UNMAP(regs);
/* save ticks normalized to ms for si_watchdog_ms() */
if (PMUCTL_ENAB(&ksii.pub)) {
/* based on 32KHz ILP clock */
wd_msticks = 32;
} else {
wd_msticks = ALP_CLOCK / 1000;
}
ksii_attached = TRUE;
SI_MSG(("si_kattach done. ccrev = %d, wd_msticks = %d\n",
ksii.pub.ccrev, wd_msticks));
}
return &ksii.pub;
}
void
si_setosh(si_t *sih, osl_t *osh)
{
si_info_t *sii;
sii = SI_INFO(sih);
if (sii->osh != NULL) {
SI_ERROR(("osh is already set....\n"));
ASSERT(!sii->osh);
}
sii->osh = osh;
}
/* initialize the sdio core */
void
si_sdio_init(si_t *sih)
{
si_info_t *sii = SI_INFO(sih);
if (((sih->buscoretype == PCMCIA_CORE_ID) && (sih->buscorerev >= 8)) ||
(sih->buscoretype == SDIOD_CORE_ID)) {
uint idx;
#ifdef HTC_KlocWork
sdpcmd_regs_t *sdpregs=NULL;
#else
sdpcmd_regs_t *sdpregs;
#endif
/* get the current core index */
idx = sii->curidx;
ASSERT(idx == si_findcoreidx(sih, D11_CORE_ID, 0));
/* switch to sdio core */
if (!(sdpregs = (sdpcmd_regs_t *)si_setcore(sih, PCMCIA_CORE_ID, 0)))
sdpregs = (sdpcmd_regs_t *)si_setcore(sih, SDIOD_CORE_ID, 0);
ASSERT(sdpregs);
SI_MSG(("si_sdio_init: For PCMCIA/SDIO Corerev %d, enable ints from core %d "
"through SD core %d (%p)\n",
sih->buscorerev, idx, sii->curidx, sdpregs));
#ifdef HTC_KlocWork
if (sdpregs != NULL) {
/* enable backplane error and core interrupts */
W_REG(sii->osh, &sdpregs->hostintmask, I_SBINT);
W_REG(sii->osh, &sdpregs->sbintmask,
(I_SB_SERR | I_SB_RESPERR | (1 << idx)));
} else
SI_ERROR(("[HTCKW] si_sdio_init: sdpregs is NULL\n"));
#else
/* enable backplane error and core interrupts */
W_REG(sii->osh, &sdpregs->hostintmask, I_SBINT);
W_REG(sii->osh, &sdpregs->sbintmask, (I_SB_SERR | I_SB_RESPERR | (1 << idx)));
#endif
/* switch back to previous core */
si_setcoreidx(sih, idx);
}
/* enable interrupts */
bcmsdh_intr_enable(sii->sdh);
}
/* set the core to socram run bist and return bist status back */
int
si_bist_socram(si_t *sih, uint32 *biststatus)
{
si_info_t *sii;
uint origidx;
uint intr_val = 0;
sbsocramregs_t *regs;
int error = 0;
uint status = 0;
SI_ERROR(("doing the bist on SOCRAM\n"));
sii = SI_INFO(sih);
/* Block ints and save current core */
INTR_OFF(sii, intr_val);
origidx = si_coreidx(sih);
/* Switch to SOCRAM core */
if (!(regs = si_setcore(sih, SOCRAM_CORE_ID, 0)))
goto done;
si_core_reset(sih, SICF_BIST_EN, SICF_BIST_EN);
/* Wait for bist done */
SPINWAIT(((si_core_sflags(sih, 0, 0) & SISF_BIST_DONE) == 0), 100000);
status = si_core_sflags(sih, 0, 0);
if (status & SISF_BIST_DONE) {
if (status & SISF_BIST_ERROR) {
*biststatus = R_REG(sii->osh, ®s->biststat);
/* hnd_bist gives errors for ROM bist test, so ignore it */
*biststatus &= 0xFFFF;
if (!*biststatus)
error = 0;
else
error = 1;
}
}
si_core_reset(sih, 0, 0);
/* Return to previous state and core */
si_setcoreidx(sih, origidx);
done:
INTR_RESTORE(sii, intr_val);
return error;
}
int
si_bist_cc(si_t *sih, uint32 *biststatus)
{
si_info_t *sii;
uint origidx;
uint intr_val = 0;
int error = 0;
void *regs;
int status;
bool wasup;
sii = SI_INFO(sih);
SI_ERROR(("doing the bist on ChipC\n"));
/* Block ints and save current core */
INTR_OFF(sii, intr_val);
origidx = si_coreidx(sih);
/* Switch to CC core */
if (!(regs = si_setcore(sih, CC_CORE_ID, 0)))
goto done;
/* Get info for determining size */
if (!(wasup = si_iscoreup(sih)))
si_core_reset(sih, 0, 0);
status = si_corebist(sih);
if (status == BCME_ERROR) {
*biststatus = si_corereg(sih, si_coreidx(&sii->pub), 12, 0, 0);
/* XXX: OTP gives the BIST error */
*biststatus &= ~(0x1);
if (*biststatus)
error = 1;
}
/* Return to previous state and core */
if (!wasup)
si_core_disable(sih, 0);
/* Return to previous state and core */
si_setcoreidx(sih, origidx);
*biststatus = 0;
done:
INTR_RESTORE(sii, intr_val);
return error;
}
static bool
si_buscore_prep(si_info_t *sii, uint bustype, uint devid, void *sdh)
{
/* need to set memseg flag for CF card first before any sb registers access */
if (BUSTYPE(bustype) == PCMCIA_BUS)
sii->memseg = TRUE;
if (BUSTYPE(bustype) == SDIO_BUS) {
int err;
uint8 clkset;
/* Try forcing SDIO core to do ALPAvail request only */
clkset = SBSDIO_FORCE_HW_CLKREQ_OFF | SBSDIO_ALP_AVAIL_REQ;
bcmsdh_cfg_write(sdh, SDIO_FUNC_1, SBSDIO_FUNC1_CHIPCLKCSR, clkset, &err);
if (!err) {
uint8 clkval;
/* If register supported, wait for ALPAvail and then force ALP */
clkval = bcmsdh_cfg_read(sdh, SDIO_FUNC_1, SBSDIO_FUNC1_CHIPCLKCSR, NULL);
if ((clkval & ~SBSDIO_AVBITS) == clkset) {
SPINWAIT(((clkval = bcmsdh_cfg_read(sdh, SDIO_FUNC_1,
SBSDIO_FUNC1_CHIPCLKCSR, NULL)), !SBSDIO_ALPAV(clkval)),
PMU_MAX_TRANSITION_DLY);
if (!SBSDIO_ALPAV(clkval)) {
SI_ERROR(("timeout on ALPAV wait, clkval 0x%02x\n",
clkval));
return FALSE;
}
clkset = SBSDIO_FORCE_HW_CLKREQ_OFF | SBSDIO_FORCE_ALP;
bcmsdh_cfg_write(sdh, SDIO_FUNC_1, SBSDIO_FUNC1_CHIPCLKCSR,
clkset, &err);
OSL_DELAY(65);
}
}
#ifndef MMC_SDIO_FORCE_PULLUP
/* Also, disable the extra SDIO pull-ups */
bcmsdh_cfg_write(sdh, SDIO_FUNC_1, SBSDIO_FUNC1_SDIOPULLUP, 0, NULL);
#endif
}
return TRUE;
}
/*
* Allocate a si handle.
* devid - pci device id (used to determine chip#)
* osh - opaque OS handle
* regs - virtual address of initial core registers
* bustype - pci/pcmcia/sb/sdio/etc
* vars - pointer to a pointer area for "environment" variables
* varsz - pointer to int to return the size of the vars
*/
si_t *
si_attach(uint devid, osl_t *osh, void *regs,
uint bustype, void *sdh, char **vars, uint *varsz)
{
si_info_t *sii;
/* alloc si_info_t */
if ((sii = MALLOC(osh, sizeof (si_info_t))) == NULL) {
SI_ERROR(("si_attach: malloc failed! malloced %d bytes\n", MALLOCED(osh)));
return (NULL);
}
if (si_doattach(sii, devid, osh, regs, bustype, sdh, vars, varsz) == NULL) {
MFREE(osh, sii, sizeof(si_info_t));
return (NULL);
}
sii->vars = vars ? *vars : NULL;
sii->varsz = varsz ? *varsz : 0;
return (si_t *)sii;
}
int
si_bist_d11(si_t *sih, uint32 *biststatus1, uint32 *biststatus2)
{
si_info_t *sii;
uint origidx;
uint intr_val = 0;
void *regs;
int error = 0;
bool wasup;
uint32 offset = SBCONFIGOFF + SBTMSTATELOW;
uint32 max_res_mask;
uint32 pmu_ctrl;
*biststatus1 = 0;
*biststatus2 = 0;
SI_ERROR(("doing the bist on D11\n"));
sii = SI_INFO(sih);
if (CHIPTYPE(sih->socitype) != SOCI_SB) {
return 0;
}
/* Block ints and save current core */
INTR_OFF(sii, intr_val);
origidx = si_coreidx(sih);
/* Switch to D11 core */
if (!(regs = si_setcore(sih, D11_CORE_ID, 0)))
goto done;
/* Get info for determining size */
/* coming out of reset device shoudl have clk enabled, bw set, etc */
if (!(wasup = si_iscoreup(sih)))
si_core_reset(sih, 0x4F, 0x4F);
max_res_mask = si_corereg(sih, 0, OFFSETOF(chipcregs_t, max_res_mask), 0, 0);
si_corereg(sih, 0, OFFSETOF(chipcregs_t, max_res_mask), ~0, 0x3fffff);
if (si_corerev(&sii->pub) == 20) {
uint32 phy_reset_val;
uint32 bist_test_val, bist_status;
/* XXX: enable the phy PLL */
pmu_ctrl = si_corereg(sih, si_coreidx(&sii->pub), 0x1e8, 0, 0);
pmu_ctrl |= 0x000010000;
si_corereg(sih, si_coreidx(&sii->pub), 0x1e8, ~0, pmu_ctrl);
SPINWAIT(((si_corereg(sih, si_coreidx(&sii->pub), 0x1e8, 0, 0) & 0x01000000) == 0),
1000000);
pmu_ctrl = si_corereg(sih, si_coreidx(&sii->pub), 0x1e8, 0, 0);
/* take the phy out of reset */
phy_reset_val = si_corereg(sih, si_coreidx(&sii->pub), offset, 0, 0);
phy_reset_val &= ~(0x0008 << SBTML_SICF_SHIFT);
si_corereg(sih, si_coreidx(&sii->pub), offset, ~0, phy_reset_val);
phy_reset_val = si_corereg(sih, si_coreidx(&sii->pub), offset, 0, 0);
/* enable bist first */
bist_test_val = si_corereg(sih, si_coreidx(&sii->pub), offset, 0, 0);
bist_test_val |= (SICF_BIST_EN << 16);
si_corereg(sih, si_coreidx(&sii->pub), offset, ~0, bist_test_val);
SPINWAIT(((si_core_sflags(sih, 0, 0) & SISF_BIST_DONE) == 0), 1000000);
bist_status = si_core_sflags(sih, 0, 0);
SI_ERROR(("status are 0x%08x\n", bist_status));
if (bist_status & SISF_BIST_DONE) {
if (bist_status & SISF_BIST_ERROR) {
error = 1;
*biststatus1 = si_corereg(sih, si_coreidx(&sii->pub), 12, 0, 0);
*biststatus2 = si_corereg(sih, si_coreidx(&sii->pub), 16, 0, 0);
}
}
/* stop the phy pll */
pmu_ctrl = si_corereg(sih, si_coreidx(&sii->pub), 0x1e8, 0, 0);
pmu_ctrl &= ~0x10000;
si_corereg(sih, si_coreidx(&sii->pub), 0x1e8, ~0, pmu_ctrl);
}
/* remove the resource mask */
si_corereg(sih, 0, OFFSETOF(chipcregs_t, max_res_mask), ~0, max_res_mask);
/* Return to previous state and core */
if (!wasup)
si_core_disable(sih, 0);
/* Return to previous state and core */
si_setcoreidx(sih, origidx);
done:
INTR_RESTORE(sii, intr_val);
return error;
}
static si_info_t *
si_doattach(si_info_t *sii, uint devid, osl_t *osh, void *regs,
uint bustype, void *sdh, char **vars, uint *varsz)
{
struct si_pub *sih = &sii->pub;
uint32 w, savewin;
chipcregs_t *cc;
char *pvars = NULL;
uint origidx;
ASSERT(GOODREGS(regs));
bzero((uchar*)sii, sizeof(si_info_t));
{
if (NULL == (common_info_alloced = (void *)MALLOC(osh, sizeof(si_common_info_t)))) {
SI_ERROR(("si_doattach: malloc failed! malloced %dbytes\n", MALLOCED(osh)));
return (NULL);
}
bzero((uchar*)(common_info_alloced), sizeof(si_common_info_t));
}
sii->common_info = (si_common_info_t *)common_info_alloced;
sii->common_info->attach_count++;
savewin = 0;
sih->buscoreidx = BADIDX;
sii->curmap = regs;
sii->sdh = sdh;
sii->osh = osh;
/* find Chipcommon address */
if (bustype == PCI_BUS) {
savewin = OSL_PCI_READ_CONFIG(sii->osh, PCI_BAR0_WIN, sizeof(uint32));
if (!GOODCOREADDR(savewin, SI_ENUM_BASE))
savewin = SI_ENUM_BASE;
OSL_PCI_WRITE_CONFIG(sii->osh, PCI_BAR0_WIN, 4, SI_ENUM_BASE);
cc = (chipcregs_t *)regs;
} else
if ((bustype == SDIO_BUS) || (bustype == SPI_BUS)) {
cc = (chipcregs_t *)sii->curmap;
} else {
cc = (chipcregs_t *)REG_MAP(SI_ENUM_BASE, SI_CORE_SIZE);
}
sih->bustype = bustype;
if (bustype != BUSTYPE(bustype)) {
SI_ERROR(("si_doattach: bus type %d does not match configured bus type %d\n",
bustype, BUSTYPE(bustype)));
return NULL;
}
/* bus/core/clk setup for register access */
if (!si_buscore_prep(sii, bustype, devid, sdh)) {
SI_ERROR(("si_doattach: si_core_clk_prep failed %d\n", bustype));
return NULL;
}
/* ChipID recognition.
* We assume we can read chipid at offset 0 from the regs arg.
* If we add other chiptypes (or if we need to support old sdio hosts w/o chipcommon),
* some way of recognizing them needs to be added here.
*/
w = R_REG(osh, &cc->chipid);
sih->socitype = (w & CID_TYPE_MASK) >> CID_TYPE_SHIFT;
/* Might as wll fill in chip id rev & pkg */
sih->chip = w & CID_ID_MASK;
sih->chiprev = (w & CID_REV_MASK) >> CID_REV_SHIFT;
sih->chippkg = (w & CID_PKG_MASK) >> CID_PKG_SHIFT;
if ((CHIPID(sih->chip) == BCM4329_CHIP_ID) && (sih->chippkg != BCM4329_289PIN_PKG_ID))
sih->chippkg = BCM4329_182PIN_PKG_ID;
sih->issim = IS_SIM(sih->chippkg);
/* scan for cores */
if (CHIPTYPE(sii->pub.socitype) == SOCI_SB) {
SI_MSG(("Found chip type SB (0x%08x)\n", w));
sb_scan(&sii->pub, regs, devid);
} else if (CHIPTYPE(sii->pub.socitype) == SOCI_AI) {
SI_MSG(("Found chip type AI (0x%08x)\n", w));
/* pass chipc address instead of original core base */
ai_scan(&sii->pub, (void *)cc, devid);
} else {
SI_ERROR(("Found chip of unkown type (0x%08x)\n", w));
return NULL;
}
/* no cores found, bail out */
if (sii->numcores == 0) {
SI_ERROR(("si_doattach: could not find any cores\n"));
return NULL;
}
/* bus/core/clk setup */
origidx = SI_CC_IDX;
if (!si_buscore_setup(sii, cc, bustype, savewin, &origidx, regs)) {
SI_ERROR(("si_doattach: si_buscore_setup failed\n"));
return NULL;
}
pvars = NULL;
if (sii->pub.ccrev >= 20) {
cc = (chipcregs_t *)si_setcore(sih, CC_CORE_ID, 0);
W_REG(osh, &cc->gpiopullup, 0);
W_REG(osh, &cc->gpiopulldown, 0);
si_setcoreidx(sih, origidx);
}
/* Skip PMU initialization from the Dongle Host.
* Firmware will take care of it when it comes up.
*/
return (sii);
}
static bool
si_buscore_setup(si_info_t *sii, chipcregs_t *cc, uint bustype, uint32 savewin,
uint *origidx, void *regs)
{
bool pci, pcie;
uint i;
uint pciidx, pcieidx, pcirev, pcierev;
cc = si_setcoreidx(&sii->pub, SI_CC_IDX);
ASSERT((uintptr)cc);
#ifdef HTC_KlocWork
if(cc == NULL){
SI_ERROR(("[HTCKW] si_buscore_setup: cc is NULL\n"));
return FALSE;
}
#endif
/* get chipcommon rev */
sii->pub.ccrev = (int)si_corerev(&sii->pub);
/* get chipcommon chipstatus */
if (sii->pub.ccrev >= 11)
sii->pub.chipst = R_REG(sii->osh, &cc->chipstatus);
/* get chipcommon capabilites */
sii->pub.cccaps = R_REG(sii->osh, &cc->capabilities);
/* get pmu rev and caps */
if (sii->pub.cccaps & CC_CAP_PMU) {
sii->pub.pmucaps = R_REG(sii->osh, &cc->pmucapabilities);
sii->pub.pmurev = sii->pub.pmucaps & PCAP_REV_MASK;
}
SI_MSG(("Chipc: rev %d, caps 0x%x, chipst 0x%x pmurev %d, pmucaps 0x%x\n",
sii->pub.ccrev, sii->pub.cccaps, sii->pub.chipst, sii->pub.pmurev,
sii->pub.pmucaps));
/* figure out bus/orignal core idx */
sii->pub.buscoretype = NODEV_CORE_ID;
sii->pub.buscorerev = NOREV;
sii->pub.buscoreidx = BADIDX;
pci = pcie = FALSE;
pcirev = pcierev = NOREV;
pciidx = pcieidx = BADIDX;
for (i = 0; i < sii->numcores; i++) {
uint cid, crev;
si_setcoreidx(&sii->pub, i);
cid = si_coreid(&sii->pub);
crev = si_corerev(&sii->pub);
/* Display cores found */
SI_MSG(("CORE[%d]: id 0x%x rev %d base 0x%x regs 0x%p\n",
i, cid, crev, sii->common_info->coresba[i], sii->common_info->regs[i]));
if (BUSTYPE(bustype) == PCI_BUS) {
if (cid == PCI_CORE_ID) {
pciidx = i;
pcirev = crev;
pci = TRUE;
} else if (cid == PCIE_CORE_ID) {
pcieidx = i;
pcierev = crev;
pcie = TRUE;
}
} else if ((BUSTYPE(bustype) == PCMCIA_BUS) &&
(cid == PCMCIA_CORE_ID)) {
sii->pub.buscorerev = crev;
sii->pub.buscoretype = cid;
sii->pub.buscoreidx = i;
}
else if (((BUSTYPE(bustype) == SDIO_BUS) ||
(BUSTYPE(bustype) == SPI_BUS)) &&
((cid == PCMCIA_CORE_ID) ||
(cid == SDIOD_CORE_ID))) {
sii->pub.buscorerev = crev;
sii->pub.buscoretype = cid;
sii->pub.buscoreidx = i;
}
/* find the core idx before entering this func. */
if ((savewin && (savewin == sii->common_info->coresba[i])) ||
(regs == sii->common_info->regs[i]))
*origidx = i;
}
SI_MSG(("Buscore id/type/rev %d/0x%x/%d\n", sii->pub.buscoreidx, sii->pub.buscoretype,
sii->pub.buscorerev));
if (BUSTYPE(sii->pub.bustype) == SI_BUS && (CHIPID(sii->pub.chip) == BCM4712_CHIP_ID) &&
(sii->pub.chippkg != BCM4712LARGE_PKG_ID) && (sii->pub.chiprev <= 3))
OR_REG(sii->osh, &cc->slow_clk_ctl, SCC_SS_XTAL);
/* Make sure any on-chip ARM is off (in case strapping is wrong), or downloaded code was
* already running.
*/
if ((BUSTYPE(bustype) == SDIO_BUS) || (BUSTYPE(bustype) == SPI_BUS)) {
if (si_setcore(&sii->pub, ARM7S_CORE_ID, 0) ||
si_setcore(&sii->pub, ARMCM3_CORE_ID, 0))
si_core_disable(&sii->pub, 0);
}
/* return to the original core */
si_setcoreidx(&sii->pub, *origidx);
return TRUE;
}
