@@ -75,138 +75,138 @@ static bool sdhci_check_capab_freq_range(SDHCIState *s, const char *desc,
static void sdhci_check_capareg(SDHCIState *s, Error **errp)
{
uint64_t msk = s->capareg;
uint32_t val;
bool y;
switch (s->sd_spec_version) {
case 4:
val = FIELD_EX64(s->capareg, SDHC_CAPAB, BUS64BIT_V4);
trace_sdhci_capareg("64-bit system bus (v4)", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, BUS64BIT_V4, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, UHS_II);
trace_sdhci_capareg("UHS-II", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, UHS_II, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, ADMA3);
trace_sdhci_capareg("ADMA3", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, ADMA3, 0);
- /* fallthrough */
+ fallthrough;
case 3:
val = FIELD_EX64(s->capareg, SDHC_CAPAB, ASYNC_INT);
trace_sdhci_capareg("async interrupt", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, ASYNC_INT, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, SLOT_TYPE);
if (val) {
error_setg(errp, "slot-type not supported");
return;
}
trace_sdhci_capareg("slot type", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, SLOT_TYPE, 0);
if (val != 2) {
val = FIELD_EX64(s->capareg, SDHC_CAPAB, EMBEDDED_8BIT);
trace_sdhci_capareg("8-bit bus", val);
}
msk = FIELD_DP64(msk, SDHC_CAPAB, EMBEDDED_8BIT, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, BUS_SPEED);
trace_sdhci_capareg("bus speed mask", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, BUS_SPEED, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, DRIVER_STRENGTH);
trace_sdhci_capareg("driver strength mask", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, DRIVER_STRENGTH, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, TIMER_RETUNING);
trace_sdhci_capareg("timer re-tuning", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, TIMER_RETUNING, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, SDR50_TUNING);
trace_sdhci_capareg("use SDR50 tuning", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, SDR50_TUNING, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, RETUNING_MODE);
trace_sdhci_capareg("re-tuning mode", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, RETUNING_MODE, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, CLOCK_MULT);
trace_sdhci_capareg("clock multiplier", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, CLOCK_MULT, 0);
- /* fallthrough */
+ fallthrough;
case 2: /* default version */
val = FIELD_EX64(s->capareg, SDHC_CAPAB, ADMA2);
trace_sdhci_capareg("ADMA2", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, ADMA2, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, ADMA1);
trace_sdhci_capareg("ADMA1", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, ADMA1, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, BUS64BIT);
trace_sdhci_capareg("64-bit system bus (v3)", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, BUS64BIT, 0);
- /* fallthrough */
+ fallthrough;
case 1:
y = FIELD_EX64(s->capareg, SDHC_CAPAB, TOUNIT);
msk = FIELD_DP64(msk, SDHC_CAPAB, TOUNIT, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, TOCLKFREQ);
trace_sdhci_capareg(y ? "timeout (MHz)" : "Timeout (KHz)", val);
if (sdhci_check_capab_freq_range(s, "timeout", val, errp)) {
return;
}
msk = FIELD_DP64(msk, SDHC_CAPAB, TOCLKFREQ, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, BASECLKFREQ);
trace_sdhci_capareg(y ? "base (MHz)" : "Base (KHz)", val);
if (sdhci_check_capab_freq_range(s, "base", val, errp)) {
return;
}
msk = FIELD_DP64(msk, SDHC_CAPAB, BASECLKFREQ, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, MAXBLOCKLENGTH);
if (val >= 3) {
error_setg(errp, "block size can be 512, 1024 or 2048 only");
return;
}
trace_sdhci_capareg("max block length", sdhci_get_fifolen(s));
msk = FIELD_DP64(msk, SDHC_CAPAB, MAXBLOCKLENGTH, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, HIGHSPEED);
trace_sdhci_capareg("high speed", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, HIGHSPEED, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, SDMA);
trace_sdhci_capareg("SDMA", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, SDMA, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, SUSPRESUME);
trace_sdhci_capareg("suspend/resume", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, SUSPRESUME, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, V33);
trace_sdhci_capareg("3.3v", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, V33, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, V30);
trace_sdhci_capareg("3.0v", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, V30, 0);
val = FIELD_EX64(s->capareg, SDHC_CAPAB, V18);
trace_sdhci_capareg("1.8v", val);
msk = FIELD_DP64(msk, SDHC_CAPAB, V18, 0);
break;
default:
error_setg(errp, "Unsupported spec version: %u", s->sd_spec_version);
}
if (msk) {
qemu_log_mask(LOG_UNIMP,
"SDHCI: unknown CAPAB mask: 0x%016" PRIx64 "\n", msk);
}
}
@@ -1688,160 +1688,160 @@ static void
usdhc_write(void *opaque, hwaddr offset, uint64_t val, unsigned size)
{
SDHCIState *s = SYSBUS_SDHCI(opaque);
uint8_t hostctl1;
uint32_t value = (uint32_t)val;
switch (offset) {
case USDHC_DLL_CTRL:
case USDHC_TUNE_CTRL_STATUS:
case USDHC_UNDOCUMENTED_REG27:
case USDHC_TUNING_CTRL:
case USDHC_WTMK_LVL:
break;
case USDHC_VENDOR_SPEC:
s->vendor_spec = value;
switch (s->vendor) {
case SDHCI_VENDOR_IMX:
if (value & USDHC_IMX_FRC_SDCLK_ON) {
s->prnsts &= ~SDHC_IMX_CLOCK_GATE_OFF;
} else {
s->prnsts |= SDHC_IMX_CLOCK_GATE_OFF;
}
break;
default:
break;
}
break;
case SDHC_HOSTCTL:
/*
* Here's What ESDHCI has at offset 0x28 (SDHC_HOSTCTL)
*
* 7 6 5 4 3 2 1 0
* |-----------+--------+--------+-----------+----------+---------|
* | Card | Card | Endian | DATA3 | Data | Led |
* | Detect | Detect | Mode | as Card | Transfer | Control |
* | Signal | Test | | Detection | Width | |
* | Selection | Level | | Pin | | |
* |-----------+--------+--------+-----------+----------+---------|
*
* and 0x29
*
* 15 10 9 8
* |----------+------|
* | Reserved | DMA |
* | | Sel. |
* | | |
* |----------+------|
*
* and here's what SDCHI spec expects those offsets to be:
*
* 0x28 (Host Control Register)
*
* 7 6 5 4 3 2 1 0
* |--------+--------+----------+------+--------+----------+---------|
* | Card | Card | Extended | DMA | High | Data | LED |
* | Detect | Detect | Data | Sel. | Speed | Transfer | Control |
* | Signal | Test | Transfer | | Enable | Width | |
* | Sel. | Level | Width | | | | |
* |--------+--------+----------+------+--------+----------+---------|
*
* and 0x29 (Power Control Register)
*
* |----------------------------------|
* | Power Control Register |
* | |
* | Description omitted, |
* | since it has no analog in ESDHCI |
* | |
* |----------------------------------|
*
* Since offsets 0x2A and 0x2B should be compatible between
* both IP specs we only need to reconcile least 16-bit of the
* word we've been given.
*/
/*
* First, save bits 7 6 and 0 since they are identical
*/
hostctl1 = value & (SDHC_CTRL_LED |
SDHC_CTRL_CDTEST_INS |
SDHC_CTRL_CDTEST_EN);
/*
* Second, split "Data Transfer Width" from bits 2 and 1 in to
* bits 5 and 1
*/
if (value & USDHC_CTRL_8BITBUS) {
hostctl1 |= SDHC_CTRL_8BITBUS;
}
if (value & USDHC_CTRL_4BITBUS) {
hostctl1 |= USDHC_CTRL_4BITBUS;
}
/*
* Third, move DMA select from bits 9 and 8 to bits 4 and 3
*/
hostctl1 |= SDHC_DMA_TYPE(value >> (8 - 3));
/*
* Now place the corrected value into low 16-bit of the value
* we are going to give standard SDHCI write function
*
* NOTE: This transformation should be the inverse of what can
* be found in drivers/mmc/host/sdhci-esdhc-imx.c in Linux
* kernel
*/
value &= ~UINT16_MAX;
value |= hostctl1;
value |= (uint16_t)s->pwrcon << 8;
sdhci_write(opaque, offset, value, size);
break;
case USDHC_MIX_CTRL:
/*
* So, when SD/MMC stack in Linux tries to write to "Transfer
* Mode Register", ESDHC i.MX quirk code will translate it
* into a write to ESDHC_MIX_CTRL, so we do the opposite in
* order to get where we started
*
* Note that Auto CMD23 Enable bit is located in a wrong place
* on i.MX, but since it is not used by QEMU we do not care.
*
* We don't want to call sdhci_write(.., SDHC_TRNMOD, ...)
* here because it will result in a call to
* sdhci_send_command(s) which we don't want.
*
*/
s->trnmod = value & UINT16_MAX;
break;
case SDHC_TRNMOD:
/*
* Similar to above, but this time a write to "Command
* Register" will be translated into a 4-byte write to
* "Transfer Mode register" where lower 16-bit of value would
* be set to zero. So what we do is fill those bits with
* cached value from s->trnmod and let the SDHCI
* infrastructure handle the rest
*/
sdhci_write(opaque, offset, val | s->trnmod, size);
break;
case SDHC_BLKSIZE:
/*
* ESDHCI does not implement "Host SDMA Buffer Boundary", and
* Linux driver will try to zero this field out which will
* break the rest of SDHCI emulation.
*
* Linux defaults to maximum possible setting (512K boundary)
* and it seems to be the only option that i.MX IP implements,
* so we artificially set it to that value.
*/
val |= 0x7 << 12;
- /* FALLTHROUGH */
+ fallthrough;
default:
sdhci_write(opaque, offset, val, size);
break;
}
}
In preparation of raising -Wimplicit-fallthrough to 5, replace all fall-through comments with the fallthrough attribute pseudo-keyword. Signed-off-by: Emmanouil Pitsidianakis <manos.pitsidianakis@linaro.org> --- hw/sd/sdhci.c | 8 ++++---- 1 file changed, 4 insertions(+), 4 deletions(-)