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|
/*
* CDDL HEADER START
*
* The contents of this file are subject to the terms of the
* Common Development and Distribution License (the "License").
* You may not use this file except in compliance with the License.
*
* You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE
* or http://www.opensolaris.org/os/licensing.
* See the License for the specific language governing permissions
* and limitations under the License.
*
* When distributing Covered Code, include this CDDL HEADER in each
* file and include the License file at usr/src/OPENSOLARIS.LICENSE.
* If applicable, add the following below this CDDL HEADER, with the
* fields enclosed by brackets "[]" replaced with your own identifying
* information: Portions Copyright [yyyy] [name of copyright owner]
*
* CDDL HEADER END
*/
/*
* Copyright 2009 Sun Microsystems, Inc. All rights reserved.
* Use is subject to license terms.
*/
/*
* CMU-CH nexus utility routines:
* property and config routines for attach()
* reg/intr/range/assigned-address property routines for bus_map()
* init_child()
* fault handling
* debug functions
*/
#include <sys/types.h>
#include <sys/kmem.h>
#include <sys/async.h>
#include <sys/sysmacros.h>
#include <sys/sunddi.h>
#include <sys/sunndi.h>
#include <sys/fm/protocol.h>
#include <sys/fm/io/pci.h>
#include <sys/fm/util.h>
#include <sys/ddi_impldefs.h>
#include <sys/pcicmu/pcicmu.h>
#include <sys/promif.h>
/*
* get_pcmu_properties
*
* This function is called from the attach routine to get the key
* properties of the pci nodes.
*
* used by: pcmu_attach()
*
* return value: DDI_FAILURE on failure
*/
int
get_pcmu_properties(pcmu_t *pcmu_p, dev_info_t *dip)
{
int i;
/*
* Get the device's port id.
*/
if ((pcmu_p->pcmu_id = (uint32_t)pcmu_get_portid(dip)) == -1u) {
cmn_err(CE_WARN, "%s%d: no portid property\n",
ddi_driver_name(dip), ddi_get_instance(dip));
return (DDI_FAILURE);
}
/*
* Get the bus-ranges property.
*/
i = sizeof (pcmu_p->pcmu_bus_range);
if (ddi_getlongprop_buf(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS,
"bus-range", (caddr_t)&pcmu_p->pcmu_bus_range, &i) != DDI_SUCCESS) {
cmn_err(CE_WARN, "%s%d: no bus-range property\n",
ddi_driver_name(dip), ddi_get_instance(dip));
return (DDI_FAILURE);
}
PCMU_DBG2(PCMU_DBG_ATTACH, dip,
"get_pcmu_properties: bus-range (%x,%x)\n",
pcmu_p->pcmu_bus_range.lo, pcmu_p->pcmu_bus_range.hi);
/*
* Get the ranges property.
*/
if (ddi_getlongprop(DDI_DEV_T_ANY, dip, DDI_PROP_DONTPASS, "ranges",
(caddr_t)&pcmu_p->pcmu_ranges, &pcmu_p->pcmu_ranges_length) !=
DDI_SUCCESS) {
cmn_err(CE_WARN, "%s%d: no ranges property\n",
ddi_driver_name(dip), ddi_get_instance(dip));
return (DDI_FAILURE);
}
pcmu_fix_ranges(pcmu_p->pcmu_ranges,
pcmu_p->pcmu_ranges_length / sizeof (pcmu_ranges_t));
/*
* Determine the number upa slot interrupts.
*/
pcmu_p->pcmu_numproxy = pcmu_get_numproxy(pcmu_p->pcmu_dip);
PCMU_DBG1(PCMU_DBG_ATTACH, dip, "get_pcmu_properties: numproxy=%d\n",
pcmu_p->pcmu_numproxy);
return (DDI_SUCCESS);
}
/*
* free_pcmu_properties:
*
* This routine frees the memory used to cache the
* "ranges" properties of the pci bus device node.
*
* used by: pcmu_detach()
*
* return value: none
*/
void
free_pcmu_properties(pcmu_t *pcmu_p)
{
kmem_free(pcmu_p->pcmu_ranges, pcmu_p->pcmu_ranges_length);
}
/*
* pcmu_reloc_reg
*
* If the "reg" entry (*pcmu_rp) is relocatable, lookup "assigned-addresses"
* property to fetch corresponding relocated address.
*
* used by: pcmu_map()
*
* return value:
*
* DDI_SUCCESS - on success
* DDI_ME_INVAL - regspec is invalid
*/
int
pcmu_reloc_reg(dev_info_t *dip, dev_info_t *rdip, pcmu_t *pcmu_p,
pci_regspec_t *rp)
{
int assign_len, assign_entries, i;
pci_regspec_t *assign_p;
register uint32_t phys_hi = rp->pci_phys_hi;
register uint32_t mask = PCI_REG_ADDR_M | PCI_CONF_ADDR_MASK;
register uint32_t phys_addr = phys_hi & mask;
PCMU_DBG5(PCMU_DBG_MAP | PCMU_DBG_CONT, dip,
"\tpcmu_reloc_reg fr: %x.%x.%x %x.%x\n",
rp->pci_phys_hi, rp->pci_phys_mid, rp->pci_phys_low,
rp->pci_size_hi, rp->pci_size_low);
if ((phys_hi & PCI_RELOCAT_B) || !(phys_hi & PCI_ADDR_MASK)) {
return (DDI_SUCCESS);
}
/* phys_mid must be 0 regardless space type. XXX-64 bit mem space */
if (rp->pci_phys_mid != 0 || rp->pci_size_hi != 0) {
PCMU_DBG0(PCMU_DBG_MAP | PCMU_DBG_CONT, pcmu_p->pcmu_dip,
"phys_mid or size_hi not 0\n");
return (DDI_ME_INVAL);
}
if (ddi_getlongprop(DDI_DEV_T_ANY, rdip, DDI_PROP_DONTPASS,
"assigned-addresses", (caddr_t)&assign_p, &assign_len)) {
return (DDI_ME_INVAL);
}
assign_entries = assign_len / sizeof (pci_regspec_t);
for (i = 0; i < assign_entries; i++, assign_p++) {
if ((assign_p->pci_phys_hi & mask) == phys_addr) {
rp->pci_phys_low += assign_p->pci_phys_low;
break;
}
}
kmem_free(assign_p - i, assign_len);
PCMU_DBG5(PCMU_DBG_MAP | PCMU_DBG_CONT, dip,
"\tpcmu_reloc_reg to: %x.%x.%x %x.%x\n",
rp->pci_phys_hi, rp->pci_phys_mid, rp->pci_phys_low,
rp->pci_size_hi, rp->pci_size_low);
return (i < assign_entries ? DDI_SUCCESS : DDI_ME_INVAL);
}
/*
* use "ranges" to translate relocated pci regspec into parent space
*/
int
pcmu_xlate_reg(pcmu_t *pcmu_p, pci_regspec_t *pcmu_rp, struct regspec *new_rp)
{
int n;
pcmu_ranges_t *rng_p = pcmu_p->pcmu_ranges;
int rng_n = pcmu_p->pcmu_ranges_length / sizeof (pcmu_ranges_t);
uint32_t space_type = PCI_REG_ADDR_G(pcmu_rp->pci_phys_hi);
uint32_t reg_end, reg_begin = pcmu_rp->pci_phys_low;
uint32_t sz = pcmu_rp->pci_size_low;
uint32_t rng_begin, rng_end;
if (space_type == PCI_REG_ADDR_G(PCI_ADDR_CONFIG)) {
if (reg_begin > PCI_CONF_HDR_SIZE) {
return (DDI_ME_INVAL);
}
sz = sz ? MIN(sz, PCI_CONF_HDR_SIZE) : PCI_CONF_HDR_SIZE;
reg_begin += pcmu_rp->pci_phys_hi;
}
reg_end = reg_begin + sz - 1;
for (n = 0; n < rng_n; n++, rng_p++) {
if (space_type != PCI_REG_ADDR_G(rng_p->child_high)) {
continue; /* not the same space type */
}
rng_begin = rng_p->child_low;
if (space_type == PCI_REG_ADDR_G(PCI_ADDR_CONFIG)) {
rng_begin += rng_p->child_high;
}
rng_end = rng_begin + rng_p->size_low - 1;
if (reg_begin >= rng_begin && reg_end <= rng_end) {
break;
}
}
if (n >= rng_n) {
return (DDI_ME_REGSPEC_RANGE);
}
new_rp->regspec_addr = reg_begin - rng_begin + rng_p->parent_low;
new_rp->regspec_bustype = rng_p->parent_high;
new_rp->regspec_size = sz;
PCMU_DBG4(PCMU_DBG_MAP | PCMU_DBG_CONT, pcmu_p->pcmu_dip,
"\tpcmu_xlate_reg: entry %d new_rp %x.%x %x\n",
n, new_rp->regspec_bustype, new_rp->regspec_addr, sz);
return (DDI_SUCCESS);
}
/*
* pcmu_report_dev
*
* This function is called from our control ops routine on a
* DDI_CTLOPS_REPORTDEV request.
*
* The display format is
*
* <name><inst> at <pname><pinst> device <dev> function <func>
*
* where
*
* <name> this device's name property
* <inst> this device's instance number
* <name> parent device's name property
* <inst> parent device's instance number
* <dev> this device's device number
* <func> this device's function number
*/
int
pcmu_report_dev(dev_info_t *dip)
{
if (dip == (dev_info_t *)0) {
return (DDI_FAILURE);
}
cmn_err(CE_CONT, "?PCI-device: %s@%s, %s%d\n", ddi_node_name(dip),
ddi_get_name_addr(dip), ddi_driver_name(dip),
ddi_get_instance(dip));
return (DDI_SUCCESS);
}
/*
* name_child
*
* This function is called from pcmu_init_child to name a node. It is
* also passed as a callback for node merging functions.
*
* return value: DDI_SUCCESS, DDI_FAILURE
*/
static int
name_child(dev_info_t *child, char *name, int namelen)
{
pci_regspec_t *pcmu_rp;
int reglen;
uint_t func;
char **unit_addr;
uint_t n;
/*
* Set the address portion of the node name based on
* unit-address property, if it exists.
* The interpretation of the unit-address is DD[,F]
* where DD is the device id and F is the function.
*/
if (ddi_prop_lookup_string_array(DDI_DEV_T_ANY, child,
DDI_PROP_DONTPASS, "unit-address", &unit_addr, &n) ==
DDI_PROP_SUCCESS) {
if (n != 1 || *unit_addr == NULL || **unit_addr == 0) {
cmn_err(CE_WARN, "unit-address property in %s.conf"
" not well-formed", ddi_driver_name(child));
ddi_prop_free(unit_addr);
return (DDI_FAILURE);
}
(void) snprintf(name, namelen, "%s", *unit_addr);
ddi_prop_free(unit_addr);
return (DDI_SUCCESS);
}
/*
* The unit-address property is does not exist. Set the address
* portion of the node name based on the function and device number.
*/
if (ddi_prop_lookup_int_array(DDI_DEV_T_ANY, child, DDI_PROP_DONTPASS,
"reg", (int **)&pcmu_rp, (uint_t *)®len) == DDI_SUCCESS) {
if (((reglen * sizeof (int)) % sizeof (pci_regspec_t)) != 0) {
cmn_err(CE_WARN, "reg property not well-formed");
return (DDI_FAILURE);
}
func = PCI_REG_FUNC_G(pcmu_rp[0].pci_phys_hi);
if (func != 0) {
(void) snprintf(name, namelen, "%x,%x",
PCI_REG_DEV_G(pcmu_rp[0].pci_phys_hi), func);
} else {
(void) snprintf(name, namelen, "%x",
PCI_REG_DEV_G(pcmu_rp[0].pci_phys_hi));
}
ddi_prop_free(pcmu_rp);
return (DDI_SUCCESS);
}
cmn_err(CE_WARN, "cannot name pci child '%s'", ddi_node_name(child));
return (DDI_FAILURE);
}
int
pcmu_uninit_child(pcmu_t *pcmu_p, dev_info_t *child)
{
PCMU_DBG2(PCMU_DBG_CTLOPS, pcmu_p->pcmu_dip,
"DDI_CTLOPS_UNINITCHILD: arg=%s%d\n",
ddi_driver_name(child), ddi_get_instance(child));
ddi_set_name_addr(child, NULL);
ddi_remove_minor_node(child, NULL);
impl_rem_dev_props(child);
PCMU_DBG0(PCMU_DBG_PWR, ddi_get_parent(child), "\n\n");
return (DDI_SUCCESS);
}
/*
* pcmu_init_child
*
* This function is called from our control ops routine on a
* DDI_CTLOPS_INITCHILD request. It builds and sets the device's
* parent private data area.
*
* used by: pcmu_ctlops()
*
* return value: none
*/
int
pcmu_init_child(pcmu_t *pcmu_p, dev_info_t *child)
{
char name[10];
ddi_acc_handle_t config_handle;
uint8_t bcr;
uint8_t header_type;
if (name_child(child, name, 10) != DDI_SUCCESS)
return (DDI_FAILURE);
ddi_set_name_addr(child, name);
PCMU_DBG2(PCMU_DBG_PWR, ddi_get_parent(child),
"INITCHILD: config regs setup for %s@%s\n",
ddi_node_name(child), ddi_get_name_addr(child));
/*
* Map the child configuration space to for initialization.
* We assume the obp will do the following in the devices
* config space:
*
* Set the latency-timer register to values appropriate
* for the devices on the bus (based on other devices
* MIN_GNT and MAX_LAT registers.
*
* Set the fast back-to-back enable bit in the command
* register if it's supported and all devices on the bus
* have the capability.
*
*/
if (pci_config_setup(child, &config_handle) != DDI_SUCCESS) {
ddi_set_name_addr(child, NULL);
return (DDI_FAILURE);
}
/*
* Determine the configuration header type.
*/
header_type = pci_config_get8(config_handle, PCI_CONF_HEADER);
PCMU_DBG2(PCMU_DBG_INIT_CLD, pcmu_p->pcmu_dip, "%s: header_type=%x\n",
ddi_driver_name(child), header_type);
/*
* If the device has a bus control register then program it
* based on the settings in the command register.
*/
if ((header_type & PCI_HEADER_TYPE_M) == PCI_HEADER_ONE) {
bcr = pci_config_get8(config_handle, PCI_BCNF_BCNTRL);
if (pcmu_command_default & PCI_COMM_PARITY_DETECT)
bcr |= PCI_BCNF_BCNTRL_PARITY_ENABLE;
if (pcmu_command_default & PCI_COMM_SERR_ENABLE)
bcr |= PCI_BCNF_BCNTRL_SERR_ENABLE;
bcr |= PCI_BCNF_BCNTRL_MAST_AB_MODE;
pci_config_put8(config_handle, PCI_BCNF_BCNTRL, bcr);
}
pci_config_teardown(&config_handle);
return (DDI_SUCCESS);
}
/*
* pcmu_get_reg_set_size
*
* Given a dev info pointer to a pci child and a register number, this
* routine returns the size element of that reg set property.
*
* used by: pcmu_ctlops() - DDI_CTLOPS_REGSIZE
*
* return value: size of reg set on success, zero on error
*/
off_t
pcmu_get_reg_set_size(dev_info_t *child, int rnumber)
{
pci_regspec_t *pcmu_rp;
off_t size;
int i;
if (rnumber < 0) {
return (0);
}
/*
* Get the reg property for the device.
*/
if (ddi_getlongprop(DDI_DEV_T_ANY, child, DDI_PROP_DONTPASS, "reg",
(caddr_t)&pcmu_rp, &i) != DDI_SUCCESS) {
return (0);
}
if (rnumber >= (i / (int)sizeof (pci_regspec_t))) {
kmem_free(pcmu_rp, i);
return (0);
}
size = pcmu_rp[rnumber].pci_size_low |
((uint64_t)pcmu_rp[rnumber].pci_size_hi << 32);
kmem_free(pcmu_rp, i);
return (size);
}
/*
* pcmu_get_nreg_set
*
* Given a dev info pointer to a pci child, this routine returns the
* number of sets in its "reg" property.
*
* used by: pcmu_ctlops() - DDI_CTLOPS_NREGS
*
* return value: # of reg sets on success, zero on error
*/
uint_t
pcmu_get_nreg_set(dev_info_t *child)
{
pci_regspec_t *pcmu_rp;
int i, n;
/*
* Get the reg property for the device.
*/
if (ddi_getlongprop(DDI_DEV_T_ANY, child, DDI_PROP_DONTPASS, "reg",
(caddr_t)&pcmu_rp, &i) != DDI_SUCCESS) {
return (0);
}
n = i / (int)sizeof (pci_regspec_t);
kmem_free(pcmu_rp, i);
return (n);
}
int
pcmu_cfg_report(dev_info_t *dip, ddi_fm_error_t *derr,
pcmu_errstate_t *pcmu_err_p, int caller, uint32_t prierr)
{
int fatal = 0;
int nonfatal = 0;
int i;
pcmu_t *pcmu_p;
int instance = ddi_get_instance(dip);
ASSERT(dip);
pcmu_p = get_pcmu_soft_state(instance);
derr->fme_ena = derr->fme_ena ? derr->fme_ena :
fm_ena_generate(0, FM_ENA_FMT1);
for (i = 0; pci_err_tbl[i].err_class != NULL; i++) {
if (pcmu_err_p->pcmu_cfg_stat & pci_err_tbl[i].reg_bit) {
char buf[FM_MAX_CLASS];
char *aux_msg = NULL;
switch (pci_err_tbl[i].reg_bit) {
case PCI_STAT_R_MAST_AB:
aux_msg = "Receieved Master Abort";
/* FALLTHROUGH */
case PCI_STAT_R_TARG_AB:
if (aux_msg != NULL)
aux_msg = "Receieved Target Abort";
if (prierr) {
/*
* piow case are already handled in
* pcmu_pbm_afsr_report()
*/
break;
}
if (caller != PCI_TRAP_CALL) {
/*
* if we haven't come from trap handler
* we won't have an address
*/
fatal++;
}
break;
default:
/*
* dpe on dma write or ta on dma
*/
nonfatal++;
break;
}
(void) snprintf(buf, FM_MAX_CLASS, "%s %s: %s %s",
(pcmu_p->pcmu_pcbm_p)->pcbm_nameinst_str,
(pcmu_p->pcmu_pcbm_p)->pcbm_nameaddr_str,
"PCI config space:", aux_msg);
cmn_err(CE_WARN, "%s %s=0x%p", buf, "pbm-csr",
(void *)(pcmu_p->pcmu_pcbm_p)->pcbm_ctrl_reg);
}
}
if (fatal)
return (DDI_FM_FATAL);
else if (nonfatal)
return (DDI_FM_NONFATAL);
return (DDI_FM_OK);
}
void
pcmu_child_cfg_save(dev_info_t *dip)
{
dev_info_t *cdip;
int ret = DDI_SUCCESS;
/*
* Save the state of the configuration headers of child
* nodes.
*/
for (cdip = ddi_get_child(dip); cdip != NULL;
cdip = ddi_get_next_sibling(cdip)) {
/*
* Not interested in children who are not already
* init'ed. They will be set up in pcmu_init_child().
*/
if (i_ddi_node_state(cdip) < DS_INITIALIZED) {
PCMU_DBG2(PCMU_DBG_DETACH, dip, "DDI_SUSPEND: skipping "
"%s%d not in CF1\n", ddi_driver_name(cdip),
ddi_get_instance(cdip));
continue;
}
/*
* Only save config registers if not already saved by child.
*/
if (ddi_prop_exists(DDI_DEV_T_ANY, cdip, DDI_PROP_DONTPASS,
SAVED_CONFIG_REGS) == 1) {
continue;
}
/*
* The nexus needs to save config registers. Create a property
* so it knows to restore on resume.
*/
ret = ndi_prop_create_boolean(DDI_DEV_T_NONE, cdip,
"nexus-saved-config-regs");
if (ret != DDI_PROP_SUCCESS) {
cmn_err(CE_WARN, "%s%d can't update prop %s",
ddi_driver_name(cdip), ddi_get_instance(cdip),
"nexus-saved-config-regs");
}
(void) pci_save_config_regs(cdip);
}
}
void
pcmu_child_cfg_restore(dev_info_t *dip)
{
dev_info_t *cdip;
/*
* Restore config registers for children that did not save
* their own registers. Children pwr states are UNKNOWN after
* a resume since it is possible for the PM framework to call
* resume without an actual power cycle. (ie if suspend fails).
*/
for (cdip = ddi_get_child(dip); cdip != NULL;
cdip = ddi_get_next_sibling(cdip)) {
/*
* Not interested in children who are not already
* init'ed. They will be set up by pcmu_init_child().
*/
if (i_ddi_node_state(cdip) < DS_INITIALIZED) {
PCMU_DBG2(PCMU_DBG_DETACH, dip,
"DDI_RESUME: skipping %s%d not in CF1\n",
ddi_driver_name(cdip), ddi_get_instance(cdip));
continue;
}
/*
* Only restore config registers if saved by nexus.
*/
if (ddi_prop_exists(DDI_DEV_T_ANY, cdip, DDI_PROP_DONTPASS,
"nexus-saved-config-regs") == 1) {
(void) pci_restore_config_regs(cdip);
PCMU_DBG2(PCMU_DBG_PWR, dip,
"DDI_RESUME: nexus restoring %s%d config regs\n",
ddi_driver_name(cdip), ddi_get_instance(cdip));
if (ndi_prop_remove(DDI_DEV_T_NONE, cdip,
"nexus-saved-config-regs") != DDI_PROP_SUCCESS) {
cmn_err(CE_WARN, "%s%d can't remove prop %s",
ddi_driver_name(cdip),
ddi_get_instance(cdip),
"nexus-saved-config-regs");
}
}
}
}
#ifdef DEBUG
extern uint64_t pcmu_debug_flags;
pcmu_dflag_to_str_t pcmu_dflag_strings [] = {
{PCMU_DBG_ATTACH, "pcmu_attach"},
{PCMU_DBG_DETACH, "pcmu_detach"},
{PCMU_DBG_MAP, "pcmu_map"},
{PCMU_DBG_A_INTX, "pcmu_add_intx"},
{PCMU_DBG_R_INTX, "pcmu_rem_intx"},
{PCMU_DBG_INIT_CLD, "pcmu_init_child"},
{PCMU_DBG_CTLOPS, "pcmu_ctlops"},
{PCMU_DBG_INTR, "pcmu_intr_wrapper"},
{PCMU_DBG_ERR_INTR, "pcmu_pbm_error_intr"},
{PCMU_DBG_BUS_FAULT, "pcmu_fault"},
{PCMU_DBG_IB, "pcmu_ib"},
{PCMU_DBG_CB, "pcmu_cb"},
{PCMU_DBG_PBM, "pcmu_pbm"},
{PCMU_DBG_OPEN, "pcmu_open"},
{PCMU_DBG_CLOSE, "pcmu_close"},
{PCMU_DBG_IOCTL, "pcmu_ioctl"},
{PCMU_DBG_PWR, "pcmu_pwr"}
};
void
pcmu_debug(uint64_t flag, dev_info_t *dip, char *fmt,
uintptr_t a1, uintptr_t a2, uintptr_t a3, uintptr_t a4, uintptr_t a5)
{
char *s = "pcmu unknown";
uint_t cont = 0;
int i;
int no_rec = (sizeof (pcmu_dflag_strings) /
sizeof (pcmu_dflag_to_str_t));
if (flag & PCMU_DBG_CONT) {
flag &= ~PCMU_DBG_CONT;
cont = 1;
}
if ((pcmu_debug_flags & flag) == flag) {
for (i = 0; i < no_rec; i++) {
if (pcmu_dflag_strings[i].flag == flag) {
s = pcmu_dflag_strings[i].string;
break;
}
}
if (s && cont == 0) {
prom_printf("%s(%d): %s: ", ddi_driver_name(dip),
ddi_get_instance(dip), s);
}
prom_printf(fmt, a1, a2, a3, a4, a5);
}
}
#endif
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