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authorBenjamin Herrenschmidt <benh@kernel.crashing.org>2017-06-24 14:17:07 -0500
committerStewart Smith <stewart@linux.vnet.ibm.com>2017-06-26 14:28:58 +1000
commit2c7699552327978f89ae606185e99ad8ebdfdcd1 (patch)
treea36ed4d0c8bf2f9d6e58fe357fbeef80069fbc42 /hw
parentc890a1ff25617a628d3a83d514c8dc4bcffac797 (diff)
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phb4: DD2.0 updates
Support StoreEOI, full complements of PEs (twice as big TVT) and other updates. Also renumber init steps to match spec 063 Signed-off-by: Benjamin Herrenschmidt <benh@kernel.crashing.org> Signed-off-by: Michael Neuling <mikey@neuling.org> Signed-off-by: Stewart Smith <stewart@linux.vnet.ibm.com>
Diffstat (limited to 'hw')
-rw-r--r--hw/phb4.c362
1 files changed, 249 insertions, 113 deletions
diff --git a/hw/phb4.c b/hw/phb4.c
index 79b6462..5e709fe 100644
--- a/hw/phb4.c
+++ b/hw/phb4.c
@@ -732,11 +732,46 @@ static int64_t phb4_pci_reinit(struct phb *phb, uint64_t scope, uint64_t data)
return OPAL_SUCCESS;
}
+/* Default value for MBT0, see comments in init_ioda_cache() */
+static uint64_t phb4_default_mbt0(struct phb4 *p, unsigned int bar_idx)
+{
+ uint64_t mbt0;
+
+ if (p->rev == PHB4_REV_NIMBUS_DD10) {
+ mbt0 = SETFIELD(IODA3_MBT0_MODE, 0ull, IODA3_MBT0_MODE_MDT);
+ if (bar_idx == 0)
+ mbt0 |= SETFIELD(IODA3_MBT0_MDT_COLUMN, 0ull, 0);
+ else
+ mbt0 |= SETFIELD(IODA3_MBT0_MDT_COLUMN, 0ull, 1);
+ } else {
+ switch (p->mbt_size - bar_idx - 1) {
+ case 0:
+ mbt0 = SETFIELD(IODA3_MBT0_MODE, 0ull, IODA3_MBT0_MODE_MDT);
+ mbt0 = SETFIELD(IODA3_MBT0_MDT_COLUMN, mbt0, 0);
+ break;
+ case 1:
+ mbt0 = SETFIELD(IODA3_MBT0_MODE, 0ull, IODA3_MBT0_MODE_MDT);
+ mbt0 = SETFIELD(IODA3_MBT0_MDT_COLUMN, mbt0, 1);
+ break;
+ case 2:
+ mbt0 = SETFIELD(IODA3_MBT0_MODE, 0ull, IODA3_MBT0_MODE_MDT);
+ mbt0 = SETFIELD(IODA3_MBT0_MDT_COLUMN, mbt0, 2);
+ break;
+ case 3:
+ mbt0 = SETFIELD(IODA3_MBT0_MODE, 0ull, IODA3_MBT0_MODE_MDT);
+ mbt0 = SETFIELD(IODA3_MBT0_MDT_COLUMN, mbt0, 3);
+ break;
+ default:
+ mbt0 = SETFIELD(IODA3_MBT0_MODE, 0ull, IODA3_MBT0_MODE_PE_SEG);
+ }
+ }
+ return mbt0;
+}
+
/* Clear IODA cache tables */
static void phb4_init_ioda_cache(struct phb4 *p)
{
uint32_t i;
- uint64_t mbt0;
/*
* RTT and PELTV. RTE should be 0xFF's to indicate
@@ -763,34 +798,46 @@ static void phb4_init_ioda_cache(struct phb4 *p)
memset(p->peltv_cache, 0x0, sizeof(p->peltv_cache));
memset(p->tve_cache, 0x0, sizeof(p->tve_cache));
- /* Since we configure the PHB4 with half the PE's, we need
- * to give the illusion that we support only 128/256 segments
- * half the segments.
- *
- * To achieve that, we configure *all* the M64 windows to use
- * column 1 of the MDT, which is itself set so that segment 0 and 1
- * map to PE0, 2 and 3 to PE1 etc...
- *
- * Column 0, 2 and 3 are left all 0, column 0 will be used for M32
- * and configured by the OS.
- */
- mbt0 = SETFIELD(IODA3_MBT0_MODE, 0ull, IODA3_MBT0_MODE_MDT);
- mbt0 = SETFIELD(IODA3_MBT0_MDT_COLUMN, mbt0, 1);
+ /* XXX Should we mask them ? */
+ memset(p->mist_cache, 0x0, sizeof(p->mist_cache));
+
+ /* Configure MBT entries 1...N */
+ if (p->rev == PHB4_REV_NIMBUS_DD10) {
+ /* Since we configure the DD1.0 PHB4 with half the PE's,
+ * we need to give the illusion that we support only
+ * 128/256 segments half the segments.
+ *
+ * To achieve that, we configure *all* the M64 windows to use
+ * column 1 of the MDT, which is itself set so that segment 0
+ * and 1 map to PE0, 2 and 3 to PE1 etc...
+ *
+ * Column 0, 2 and 3 are left all 0, column 0 will be used for
+ * M32 and configured by the OS.
+ */
+ for (i = 0; i < p->max_num_pes; i++)
+ p->mdt_cache[i] = SETFIELD(IODA3_MDT_PE_B, 0ull, i >> 1);
+
+ } else {
+ /* On DD2.0 we don't have the above problem. We still use MDT
+ * column 1..3 for the last 3 BARs however, thus allowing Linux
+ * to remap those, and setup all the other ones for now in mode 00
+ * (segment# == PE#). By default those columns are set to map
+ * the same way.
+ */
+ for (i = 0; i < p->max_num_pes; i++) {
+ p->mdt_cache[i] = SETFIELD(IODA3_MDT_PE_B, 0ull, i);
+ p->mdt_cache[i] |= SETFIELD(IODA3_MDT_PE_C, 0ull, i);
+ p->mdt_cache[i] |= SETFIELD(IODA3_MDT_PE_D, 0ull, i);
+ }
+
+ }
for (i = 0; i < p->mbt_size; i++) {
- p->mbt_cache[i][0] = mbt0;
+ p->mbt_cache[i][0] = phb4_default_mbt0(p, i);
p->mbt_cache[i][1] = 0;
}
- for (i = 0; i < p->max_num_pes; i++)
- p->mdt_cache[i] = SETFIELD(IODA3_MDT_PE_B, 0ull, i >> 1);
-
- /* XXX Should we mask them ? */
- memset(p->mist_cache, 0x0, sizeof(p->mist_cache));
-
/* Initialise M32 bar using MDT entry 0 */
- p->mbt_cache[0][0] = IODA3_MBT0_TYPE_M32 |
- SETFIELD(IODA3_MBT0_MODE, 0ull, IODA3_MBT0_MODE_MDT) |
- SETFIELD(IODA3_MBT0_MDT_COLUMN, 0ull, 0) |
+ p->mbt_cache[0][0] |= IODA3_MBT0_TYPE_M32 |
(p->mm1_base & IODA3_MBT0_BASE_ADDR);
p->mbt_cache[0][1] = IODA3_MBT1_ENABLE |
((~(M32_PCI_SIZE - 1)) & IODA3_MBT1_MASK);
@@ -936,10 +983,11 @@ static int64_t phb4_ioda_reset(struct phb *phb, bool purge)
phb4_init_ioda_cache(p);
}
- /* Init_29..30 - Errata workaround, clear PEST */
- /* ... We do that further down as part of our normal IODA reset */
+ /* Init_30..31 - Errata workaround, clear PESTA entry 0 */
+ phb4_ioda_sel(p, IODA3_TBL_PESTA, 0, false);
+ out_be64(p->regs + PHB_IODA_DATA0, 0);
- /* Init_31..32 - MIST */
+ /* Init_32..33 - MIST */
phb4_ioda_sel(p, IODA3_TBL_MIST, 0, true);
val = in_be64(p->regs + PHB_IODA_ADDR);
val = SETFIELD(PHB_IODA_AD_MIST_PWV, val, 0xf);
@@ -947,28 +995,30 @@ static int64_t phb4_ioda_reset(struct phb *phb, bool purge)
for (i = 0; i < (p->num_irqs/4); i++)
out_be64(p->regs + PHB_IODA_DATA0, p->mist_cache[i]);
- /* Init_33..34 - MRT */
+ /* Init_34..35 - MRT */
phb4_ioda_sel(p, IODA3_TBL_MRT, 0, true);
for (i = 0; i < p->mrt_size; i++)
out_be64(p->regs + PHB_IODA_DATA0, 0);
- /* Init_35..36 - TVT */
+ /* Init_36..37 - TVT */
phb4_ioda_sel(p, IODA3_TBL_TVT, 0, true);
for (i = 0; i < p->tvt_size; i++)
out_be64(p->regs + PHB_IODA_DATA0, p->tve_cache[i]);
- /* Init_37..38 - MBT */
+ /* Init_38..39 - MBT */
phb4_ioda_sel(p, IODA3_TBL_MBT, 0, true);
for (i = 0; i < p->mbt_size; i++) {
out_be64(p->regs + PHB_IODA_DATA0, p->mbt_cache[i][0]);
out_be64(p->regs + PHB_IODA_DATA0, p->mbt_cache[i][1]);
}
- /* Init_39..40 - MDT */
+ /* Init_40..41 - MDT */
phb4_ioda_sel(p, IODA3_TBL_MDT, 0, true);
for (i = 0; i < p->max_num_pes; i++)
out_be64(p->regs + PHB_IODA_DATA0, p->mdt_cache[i]);
+ /* Additional OPAL specific inits */
+
/* Clear RTT and PELTV */
if (p->tbl_rtt)
memcpy((void *)p->tbl_rtt, p->rte_cache, RTT_TABLE_SIZE);
@@ -1024,7 +1074,8 @@ static int64_t phb4_set_phb_mem_window(struct phb *phb,
/*
* We have a unified MBT for all BARs on PHB4. However we
* also have a current limitation that only half of the PEs
- * are available (in order to have 2 TVT entries per PE).
+ * are available (in order to have 2 TVT entries per PE)
+ * on DD1.0
*
* So we use it as follow:
*
@@ -1035,13 +1086,19 @@ static int64_t phb4_set_phb_mem_window(struct phb *phb,
* fully segmented or single PE (we don't yet expose the
* new segmentation modes).
*
- * - In order to deal with the above PE# limitations, since
+ * - [DD1.0] In order to deal with the above PE# limitations, since
* the OS assumes the segmentation is done with as many
* segments as PEs, we effectively fake it by mapping all
* MBT[1..n] to NDT column 1 which has been configured to
* give 2 adjacent segments the same PE# (see comment in
* ioda cache init). We don't expose the other columns to
* the OS.
+ *
+ * - [DD2.0] We configure the 3 last BARs to columnt 1..3
+ * initially set to segment# == PE#. We will need to provide some
+ * extensions to the existing APIs to enable remapping of
+ * segments on those BARs (and only those) as the current
+ * API forces single segment mode.
*/
switch (window_type) {
case OPAL_IO_WINDOW_TYPE:
@@ -1126,8 +1183,12 @@ static int64_t phb4_phb_mmio_enable(struct phb __unused *phb,
case OPAL_M64_WINDOW_TYPE:
/* Window 0 is reserved for M32 */
if (window_num == 0 || window_num >= p->mbt_size ||
- enable > OPAL_ENABLE_M64_NON_SPLIT)
+ enable > OPAL_ENABLE_M64_NON_SPLIT) {
+ PHBDBG(p,
+ "phb4_phb_mmio_enable wrong args (window %d enable %d)\n",
+ window_num, enable);
return OPAL_PARAMETER;
+ }
break;
default:
return OPAL_PARAMETER;
@@ -1142,14 +1203,15 @@ static int64_t phb4_phb_mmio_enable(struct phb __unused *phb,
mbt1 = p->mbt_cache[window_num][1];
if (enable == OPAL_DISABLE_M64) {
- /* Reset the window to disabled & MDT mode */
- mbt0 = SETFIELD(IODA3_MBT0_MODE, 0ull, IODA3_MBT0_MODE_MDT);
+ /* Reset the window to disabled & default mode */
+ mbt0 = phb4_default_mbt0(p, window_num);
mbt1 = 0;
} else {
/* Verify that the mode is valid and consistent */
if (enable == OPAL_ENABLE_M64_SPLIT) {
- if (GETFIELD(IODA3_MBT0_MODE, mbt0) !=
- IODA3_MBT0_MODE_MDT)
+ uint64_t mode = GETFIELD(IODA3_MBT0_MODE, mbt0);
+ if (mode != IODA3_MBT0_MODE_PE_SEG &&
+ mode != IODA3_MBT0_MODE_MDT)
return OPAL_PARAMETER;
} else if (enable == OPAL_ENABLE_M64_NON_SPLIT) {
if (GETFIELD(IODA3_MBT0_MODE, mbt0) !=
@@ -1192,27 +1254,45 @@ static int64_t phb4_map_pe_mmio_window(struct phb *phb,
/*
* We support a combined MDT that has 4 columns. We let the OS
- * use kernel 0 for now, and we configure column1 ourselves
- * to handle the "half PEs" problem and thus simulate having
- * smaller segments. columns 2 and 3 are currently unused. We
- * might later on find a way to let the OS exploit them.
+ * use kernel 0 for M32.
+ *
+ * On DD1.0 we configure column1 ourselves to handle the "half PEs"
+ * problem and thus simulate having a smaller number of segments.
+ * columns 2 and 3 unused.
+ *
+ * On DD2.0 we configure the 3 last BARs to map column 3..1 which
+ * by default are set to map segment# == pe#, but can be remapped
+ * here if we extend this function.
+ *
+ * The problem is that the current API was "hijacked" so that an
+ * attempt at remapping any segment of an M64 has the effect of
+ * turning it into a single-PE mode BAR. So if we want to support
+ * remapping we'll have to play around this for example by creating
+ * a new API or a new window type...
*/
switch(window_type) {
case OPAL_IO_WINDOW_TYPE:
return OPAL_UNSUPPORTED;
case OPAL_M32_WINDOW_TYPE:
- if (window_num != 0 || segment_num >= p->max_num_pes)
+ if (window_num != 0 || segment_num >= p->num_pes)
return OPAL_PARAMETER;
- mdt0 = p->mdt_cache[segment_num << 1];
- mdt1 = p->mdt_cache[(segment_num << 1) + 1];
- mdt0 = SETFIELD(IODA3_MDT_PE_A, mdt0, pe_number);
- mdt1 = SETFIELD(IODA3_MDT_PE_A, mdt1, pe_number);
- p->mdt_cache[segment_num << 1] = mdt0;
- p->mdt_cache[(segment_num << 1) + 1] = mdt1;
- phb4_ioda_sel(p, IODA3_TBL_MDT, segment_num << 1, true);
- out_be64(p->regs + PHB_IODA_DATA0, mdt0);
- out_be64(p->regs + PHB_IODA_DATA0, mdt1);
+ if (p->rev == PHB4_REV_NIMBUS_DD10) {
+ mdt0 = p->mdt_cache[segment_num << 1];
+ mdt1 = p->mdt_cache[(segment_num << 1) + 1];
+ mdt0 = SETFIELD(IODA3_MDT_PE_A, mdt0, pe_number);
+ mdt1 = SETFIELD(IODA3_MDT_PE_A, mdt1, pe_number);
+ p->mdt_cache[segment_num << 1] = mdt0;
+ p->mdt_cache[(segment_num << 1) + 1] = mdt1;
+ phb4_ioda_sel(p, IODA3_TBL_MDT, segment_num << 1, true);
+ out_be64(p->regs + PHB_IODA_DATA0, mdt0);
+ out_be64(p->regs + PHB_IODA_DATA0, mdt1);
+ } else {
+ mdt0 = p->mdt_cache[segment_num];
+ mdt0 = SETFIELD(IODA3_MDT_PE_A, mdt0, pe_number);
+ phb4_ioda_sel(p, IODA3_TBL_MDT, segment_num, false);
+ out_be64(p->regs + PHB_IODA_DATA0, mdt0);
+ }
break;
case OPAL_M64_WINDOW_TYPE:
if (window_num == 0 || window_num >= p->mbt_size)
@@ -1255,6 +1335,8 @@ static int64_t phb4_map_pe_dma_window(struct phb *phb,
* We configure the PHB in 2 TVE per PE mode to match phb3.
* Current Linux implementation *requires* the two windows per
* PE.
+ *
+ * Note: On DD2.0 this is the normal mode of operation.
*/
/*
@@ -3158,56 +3240,56 @@ static const struct phb_ops phb4_ops = {
static void phb4_init_ioda3(struct phb4 *p)
{
- /* Init_17 - Interrupt Notify Base Address */
+ /* Init_18 - Interrupt Notify Base Address */
out_be64(p->regs + PHB_INT_NOTIFY_ADDR, p->irq_port);
- /* Init_18 - Interrupt Notify Base Index */
+ /* Init_19 - Interrupt Notify Base Index */
out_be64(p->regs + PHB_INT_NOTIFY_INDEX,
xive_get_notify_base(p->base_msi));
- /* Init_xx - Not in spec: Initialize source ID */
+ /* Init_19x - Not in spec: Initialize source ID */
PHBDBG(p, "Reset state SRC_ID: %016llx\n",
in_be64(p->regs + PHB_LSI_SOURCE_ID));
out_be64(p->regs + PHB_LSI_SOURCE_ID,
SETFIELD(PHB_LSI_SRC_ID, 0ull, (p->num_irqs - 1) >> 3));
- /* Init_19 - RTT BAR */
+ /* Init_20 - RTT BAR */
out_be64(p->regs + PHB_RTT_BAR, p->tbl_rtt | PHB_RTT_BAR_ENABLE);
- /* Init_20 - PELT-V BAR */
+ /* Init_21 - PELT-V BAR */
out_be64(p->regs + PHB_PELTV_BAR, p->tbl_peltv | PHB_PELTV_BAR_ENABLE);
- /* Init_21 - Setup M32 starting address */
+ /* Init_22 - Setup M32 starting address */
out_be64(p->regs + PHB_M32_START_ADDR, M32_PCI_START);
- /* Init_22 - Setup PEST BAR */
+ /* Init_23 - Setup PEST BAR */
out_be64(p->regs + PHB_PEST_BAR,
p->tbl_pest | PHB_PEST_BAR_ENABLE);
- /* Init_23 - CRW Base Address Reg */
+ /* Init_24 - CRW Base Address Reg */
/* See enable_capi_mode() */
- /* Init_24 - ASN Compare/Mask */
+ /* Init_25 - ASN Compare/Mask */
/* See enable_capi_mode() */
- /* Init_25 - CAPI Compare/Mask */
+ /* Init_26 - CAPI Compare/Mask */
/* See enable_capi_mode() */
- /* Init_26 - PCIE Outbound upper address */
+ /* Init_27 - PCIE Outbound upper address */
out_be64(p->regs + PHB_M64_UPPER_BITS, 0);
- /* Init_27 - PHB4 Configuration */
+ /* Init_28 - PHB4 Configuration */
out_be64(p->regs + PHB_PHB4_CONFIG,
PHB_PHB4C_32BIT_MSI_EN |
PHB_PHB4C_64BIT_MSI_EN);
- /* Init_28 - At least 256ns delay according to spec. Do a dummy
+ /* Init_29 - At least 256ns delay according to spec. Do a dummy
* read first to flush posted writes
*/
in_be64(p->regs + PHB_PHB4_CONFIG);
time_wait_us(2);
- /* Init_29..40 - On-chip IODA tables init */
+ /* Init_30..41 - On-chip IODA tables init */
phb4_ioda_reset(&p->phb, false);
}
@@ -3219,22 +3301,22 @@ static bool phb4_init_rc_cfg(struct phb4 *p)
/* XXX Handle errors ? */
- /* Init_45:
+ /* Init_46:
*
* Set primary bus to 0, secondary to 1 and subordinate to 0xff
*/
phb4_pcicfg_write32(&p->phb, 0, PCI_CFG_PRIMARY_BUS, 0x00ff0100);
- /* Init_46 - Clear errors */
+ /* Init_47 - Clear errors */
phb4_pcicfg_write16(&p->phb, 0, PCI_CFG_SECONDARY_STATUS, 0xffff);
- /* Init_47
+ /* Init_48
*
* PCIE Device control/status, enable error reporting, disable relaxed
* ordering, set MPS to 128 (see note), clear errors.
*
* Note: The doc recommends to set MPS to 512. This has proved to have
- * some issues as it requires specific claming of MRSS on devices and
+ * some issues as it requires specific clamping of MRSS on devices and
* we've found devices in the field that misbehave when doing that.
*
* We currently leave it all to 128 bytes (minimum setting) at init
@@ -3265,12 +3347,12 @@ static bool phb4_init_rc_cfg(struct phb4 *p)
PCICAP_EXP_DEVCTL_UR_REPORT |
SETFIELD(PCICAP_EXP_DEVCTL_MPS, 0, PCIE_MPS_128B));
- /* Init_48 - Device Control/Status 2 */
+ /* Init_49 - Device Control/Status 2 */
phb4_pcicfg_write16(&p->phb, 0, ecap + PCICAP_EXP_DCTL2,
SETFIELD(PCICAP_EXP_DCTL2_CMPTOUT, 0, 0x5) |
PCICAP_EXP_DCTL2_ARI_FWD);
- /* Init_49..53
+ /* Init_50..54
*
* AER inits
*/
@@ -3310,7 +3392,7 @@ static bool phb4_init_rc_cfg(struct phb4 *p)
static void phb4_init_errors(struct phb4 *p)
{
- /* Init_54..62 - PBL errors */
+ /* Init_55..63 - PBL errors */
out_be64(p->regs + 0x1900, 0xffffffffffffffffull);
out_be64(p->regs + 0x1908, 0x0000000000000000ull);
out_be64(p->regs + 0x1920, 0x000000004d1780f8ull);
@@ -3321,7 +3403,7 @@ static void phb4_init_errors(struct phb4 *p)
out_be64(p->regs + 0x1950, 0x0000000000000000ull);
out_be64(p->regs + 0x1958, 0x0000000000000000ull);
- /* Init_63..71 - REGB errors */
+ /* Init_64..72 - REGB errors */
out_be64(p->regs + 0x1c00, 0xffffffffffffffffull);
out_be64(p->regs + 0x1c08, 0x0000000000000000ull);
out_be64(p->regs + 0x1c20, 0x2130006efca8bc00ull);
@@ -3332,7 +3414,7 @@ static void phb4_init_errors(struct phb4 *p)
out_be64(p->regs + 0x1c50, 0x0000000000000000ull);
out_be64(p->regs + 0x1c58, 0x0000000000000000ull);
- /* Init_72..80 - TXE errors */
+ /* Init_73..81 - TXE errors */
out_be64(p->regs + 0x0d00, 0xffffffffffffffffull);
out_be64(p->regs + 0x0d08, 0x0000000000000000ull);
out_be64(p->regs + 0x0d18, 0xffffffffffffffffull);
@@ -3343,7 +3425,7 @@ static void phb4_init_errors(struct phb4 *p)
out_be64(p->regs + 0x0d50, 0x0000000000000000ull);
out_be64(p->regs + 0x0d58, 0x0000000000000000ull);
- /* Init_81..89 - RXE_ARB errors */
+ /* Init_82..90 - RXE_ARB errors */
out_be64(p->regs + 0x0d80, 0xffffffffffffffffull);
out_be64(p->regs + 0x0d88, 0x0000000000000000ull);
out_be64(p->regs + 0x0d98, 0xffffffffffffffffull);
@@ -3357,7 +3439,7 @@ static void phb4_init_errors(struct phb4 *p)
out_be64(p->regs + 0x0dd0, 0x0000000000000000ull);
out_be64(p->regs + 0x0dd8, 0x0000000000000000ull);
- /* Init_90..98 - RXE_MRG errors */
+ /* Init_91..99 - RXE_MRG errors */
out_be64(p->regs + 0x0e00, 0xffffffffffffffffull);
out_be64(p->regs + 0x0e08, 0x0000000000000000ull);
out_be64(p->regs + 0x0e18, 0xffffffffffffffffull);
@@ -3368,7 +3450,7 @@ static void phb4_init_errors(struct phb4 *p)
out_be64(p->regs + 0x0e50, 0x0000000000000000ull);
out_be64(p->regs + 0x0e58, 0x0000000000000000ull);
- /* Init_99..107 - RXE_TCE errors */
+ /* Init_100..108 - RXE_TCE errors */
out_be64(p->regs + 0x0e80, 0xffffffffffffffffull);
out_be64(p->regs + 0x0e88, 0x0000000000000000ull);
out_be64(p->regs + 0x0e98, 0xffffffffffffffffull);
@@ -3382,7 +3464,7 @@ static void phb4_init_errors(struct phb4 *p)
out_be64(p->regs + 0x0ed0, 0x0000000000000000ull);
out_be64(p->regs + 0x0ed8, 0x0000000000000000ull);
- /* Init_108..116 - RXPHB errors */
+ /* Init_109..117 - RXPHB errors */
out_be64(p->regs + 0x0c80, 0xffffffffffffffffull);
out_be64(p->regs + 0x0c88, 0x0000000000000000ull);
out_be64(p->regs + 0x0c98, 0xffffffffffffffffull);
@@ -3393,7 +3475,7 @@ static void phb4_init_errors(struct phb4 *p)
out_be64(p->regs + 0x0cd0, 0x0000000000000000ull);
out_be64(p->regs + 0x0cd8, 0x0000000000000000ull);
- /* Init_117..120 - LEM */
+ /* Init_118..121 - LEM */
out_be64(p->regs + 0x0c00, 0x0000000000000000ull);
out_be64(p->regs + 0x0c30, 0xffffffffffffffffull);
out_be64(p->regs + 0x0c38, 0xffffffffffffffffull);
@@ -3401,22 +3483,54 @@ static void phb4_init_errors(struct phb4 *p)
}
+static bool phb4_wait_dlp_reset(struct phb4 *p)
+{
+ unsigned int i;
+ uint64_t val;
+
+ /*
+ * Firmware cannot access the UTL core regs or PCI config space
+ * until the cores are out of DL_PGRESET.
+ * DL_PGRESET should be polled until it is inactive with a value
+ * of '0'. The recommended polling frequency is once every 1ms.
+ * Firmware should poll at least 200 attempts before giving up.
+ * MMIO Stores to the link are silently dropped by the UTL core if
+ * the link is down.
+ * MMIO Loads to the link will be dropped by the UTL core and will
+ * eventually time-out and will return an all ones response if the
+ * link is down.
+ */
+#define DLP_RESET_ATTEMPTS 200
+
+ PHBDBG(p, "Waiting for DLP PG reset to complete...\n");
+ for (i = 0; i < DLP_RESET_ATTEMPTS; i++) {
+ val = in_be64(p->regs + PHB_PCIE_DLP_TRAIN_CTL);
+ if (!(val & PHB_PCIE_DLP_DL_PGRESET))
+ break;
+ time_wait_ms(1);
+ }
+ if (val & PHB_PCIE_DLP_DL_PGRESET) {
+ PHBERR(p, "Timeout waiting for DLP PG reset !\n");
+ return false;
+ }
+ return true;
+}
static void phb4_init_hw(struct phb4 *p, bool first_init)
{
uint64_t val, creset;
PHBDBG(p, "Initializing PHB4...\n");
- /* Init_1 - Async reset
+ /* Init_1 - Sync reset
*
* At this point we assume the PHB has already been reset.
*/
/* Init_2 - Mask FIRs */
- out_be64(p->regs + 0xc18, 0xffffffffffffffffull);
+ out_be64(p->regs + PHB_LEM_ERROR_MASK, 0xffffffffffffffffull);
/* Init_3 - TCE tag enable */
- out_be64(p->regs + 0x868, 0xffffffffffffffffull);
+ out_be64(p->regs + PHB_TCE_TAG_ENABLE, 0xffffffffffffffffull);
/* Init_4 - PCIE System Configuration Register
*
@@ -3429,13 +3543,17 @@ static void phb4_init_hw(struct phb4 *p, bool first_init)
PHBDBG(p, "New system config : 0x%016llx\n",
in_be64(p->regs + PHB_PCIE_SCR));
- /* Init_5 - deassert CFG reset */
+ /* Init_5 - Wait for DLP PGRESET to clear */
+ if (!phb4_wait_dlp_reset(p))
+ goto failed;
+
+ /* Init_6 - deassert CFG reset */
creset = in_be64(p->regs + PHB_PCIE_CRESET);
PHBDBG(p, "Initial PHB CRESET is 0x%016llx\n", creset);
creset &= ~PHB_PCIE_CRESET_CFG_CORE;
out_be64(p->regs + PHB_PCIE_CRESET, creset);
- /* Init_6..13 - PCIE DLP Lane EQ control */
+ /* Init_7..14 - PCIE DLP Lane EQ control */
if (p->lane_eq) {
out_be64(p->regs + PHB_PCIE_LANE_EQ_CNTL0, be64_to_cpu(p->lane_eq[0]));
out_be64(p->regs + PHB_PCIE_LANE_EQ_CNTL1, be64_to_cpu(p->lane_eq[1]));
@@ -3451,11 +3569,11 @@ static void phb4_init_hw(struct phb4 *p, bool first_init)
}
}
- /* Init_14 - Clear link training */
+ /* Init_15 - Clear link training */
phb4_pcicfg_write32(&p->phb, 0, 0x78,
0x07FE0000 | p->max_link_speed);
- /* Init_15 - deassert cores reset */
+ /* Init_16 - deassert cores reset */
/*
* Lift the PHB resets but not PERST, this will be lifted
* later by the initial PERST state machine
@@ -3464,41 +3582,46 @@ static void phb4_init_hw(struct phb4 *p, bool first_init)
creset |= PHB_PCIE_CRESET_PIPE_N;
out_be64(p->regs + PHB_PCIE_CRESET, creset);
- /* Init_16 - PHB Control */
- val = PHB_CTRLR_IRQ_PGSZ_64K |
- SETFIELD(PHB_CTRLR_TVT_ADDR_SEL, 0ull, TVT_2_PER_PE);
+ /* Init_17 - PHB Control */
+ val = PHB_CTRLR_IRQ_PGSZ_64K;
+ if (p->rev == PHB4_REV_NIMBUS_DD10) {
+ val |= SETFIELD(PHB_CTRLR_TVT_ADDR_SEL, 0ull, TVT_DD1_2_PER_PE);
+ } else {
+ val |= SETFIELD(PHB_CTRLR_TVT_ADDR_SEL, 0ull, TVT_2_PER_PE);
+ val |= PHB_CTRLR_IRQ_STORE_EOI;
+ }
if (nvram_query_eq("pci-eeh-mmio", "disabled"))
val |= PHB_CTRLR_MMIO_EEH_DISABLE;
out_be64(p->regs + PHB_CTRLR, val);
- /* Init_17..40 - Architected IODA3 inits */
+ /* Init_18..41 - Architected IODA3 inits */
phb4_init_ioda3(p);
- /* Init_41..44 - Clear DLP error logs */
+ /* Init_42..45 - Clear DLP error logs */
out_be64(p->regs + 0x1aa0, 0xffffffffffffffffull);
out_be64(p->regs + 0x1aa8, 0xffffffffffffffffull);
out_be64(p->regs + 0x1ab0, 0xffffffffffffffffull);
out_be64(p->regs + 0x1ab8, 0x0);
- /* Init_45..53 : Init root complex config space */
+ /* Init_46..54 : Init root complex config space */
if (!phb4_init_rc_cfg(p))
goto failed;
- /* Init_54..120 : Setup error registers */
+ /* Init_55..121 : Setup error registers */
phb4_init_errors(p);
- /* Init_121..122 : Wait for link
+ /* Init_122..123 : Wait for link
* NOTE: At this point the spec waits for the link to come up. We
* don't bother as we are doing a PERST soon.
*/
- /* Init_123 : NBW. XXX TODO */
+ /* Init_124 : NBW. XXX TODO */
/* See enable_capi_mode() */
- /* Init_124 : Setup PCI command/status on root complex
+ /* Init_125 : Setup PCI command/status on root complex
* I don't know why the spec does this now and not earlier, so
* to be sure to get it right we might want to move it to the freset
* state machine, though the generic PCI layer will probably do
@@ -3517,19 +3640,30 @@ static void phb4_init_hw(struct phb4 *p, bool first_init)
PCI_CFG_STAT_SENT_SERR |
PCI_CFG_STAT_RECV_PERR);
- /* Init_125..130 - Re-enable error interrupts */
- /* XXX TODO along with EEH/error interrupts support */
+ /* Init_126..130 - Re-enable error interrupts */
+ out_be64(p->regs + PHB_ERR_IRQ_ENABLE, 0xca8880cc00000000ull);
+ out_be64(p->regs + PHB_TXE_ERR_IRQ_ENABLE, 0x200840fe08200000ull);
+ out_be64(p->regs + PHB_RXE_ARB_ERR_IRQ_ENABLE, 0xc40028fc01804070ull);
+ out_be64(p->regs + PHB_RXE_MRG_ERR_IRQ_ENABLE, 0x00006100008000a8ull);
+ if (p->rev == PHB4_REV_NIMBUS_DD10)
+ out_be64(p->regs + PHB_RXE_TCE_ERR_IRQ_ENABLE, 0x6051005000000000ull);
+ else
+ out_be64(p->regs + PHB_RXE_TCE_ERR_IRQ_ENABLE, 0x60510050c0000000ull);
+
+ /* Init_131 - Re-enable LEM error mask */
+ out_be64(p->regs + PHB_LEM_ERROR_MASK, 0x0000000000000000ull);
+
- /* Init_131 - Enable DMA address speculation */
+ /* Init_132 - Enable DMA address speculation */
out_be64(p->regs + PHB_TCE_SPEC_CTL, 0xf000000000000000ull);
- /* Init_132 - Timeout Control Register 1 */
+ /* Init_133 - Timeout Control Register 1 */
out_be64(p->regs + PHB_TIMEOUT_CTRL1, 0x0018150000200000ull);
- /* Init_133 - Timeout Control Register 2 */
+ /* Init_134 - Timeout Control Register 2 */
out_be64(p->regs + PHB_TIMEOUT_CTRL2, 0x0000181700000000ull);
- /* Init_134 - PBL Timeout Control Register */
+ /* Init_135 - PBL Timeout Control Register */
out_be64(p->regs + PHB_PBL_TIMEOUT_CTRL, 0x2015000000000000ull);
/* Mark the PHB as functional which enables all the various sequences */
@@ -3577,6 +3711,9 @@ static bool phb4_read_capabilities(struct phb4 *p)
p->mbt_size = 16;
p->tvt_size = 256;
}
+ /* DD2.0 has twice has many TVEs */
+ if (p->rev >= PHB4_REV_NIMBUS_DD20)
+ p->tvt_size *= 2;
val = in_be64(p->regs + PHB_PHB4_IRQ_CAP);
if (val == 0xffffffffffffffff) {
@@ -3861,7 +3998,7 @@ static void phb4_create(struct dt_node *np)
size_t lane_eq_len;
struct dt_node *iplp;
char *path;
- uint32_t irq_base;
+ uint32_t irq_base, irq_flags;
assert(p);
@@ -4004,12 +4141,10 @@ static void phb4_create(struct dt_node *np)
p->irq_port = xive_get_notify_port(p->chip_id,
XIVE_HW_SRC_PHBn(p->index));
- /*
- * XXXX FIXME: figure out how to deal with TVT entry mess
- * For now configure for 2 entries per PE and half #PEs.
- * WARNING: if changing this, update PHB_CTRLR in Init_16
- */
- p->num_pes = p->max_num_pes/2;
+ if (p->rev == PHB4_REV_NIMBUS_DD10)
+ p->num_pes = p->max_num_pes/2;
+ else
+ p->num_pes = p->max_num_pes;
/* Allocate the SkiBoot internal in-memory tables for the PHB */
phb4_allocate_tables(p);
@@ -4026,10 +4161,11 @@ static void phb4_create(struct dt_node *np)
load_capp_ucode(p);
/* Register all interrupt sources with XIVE */
+ irq_flags = XIVE_SRC_SHIFT_BUG | XIVE_SRC_TRIGGER_PAGE;
+ if (p->rev >= PHB4_REV_NIMBUS_DD20)
+ irq_flags |= XIVE_SRC_STORE_EOI;
xive_register_hw_source(p->base_msi, p->num_irqs - 8, 16,
- p->int_mmio,
- XIVE_SRC_SHIFT_BUG | XIVE_SRC_TRIGGER_PAGE,
- NULL, NULL);
+ p->int_mmio, irq_flags, NULL, NULL);
xive_register_hw_source(p->base_lsi, 8, 16,
p->int_mmio + ((p->num_irqs - 8) << 16),