blob: d4170a71c5f8af8018909f340df38b62e7e44203 [file] [log] [blame]
#include <assert.h>
#include <config.h>
#include <hei_main.hpp>
#include <util/pdbg.hpp>
#include <util/trace.hpp>
#ifdef CONFIG_PHAL_API
#include <attributes_info.H>
#endif
namespace util
{
namespace pdbg
{
//------------------------------------------------------------------------------
pdbg_target* getTrgt(const libhei::Chip& i_chip)
{
return (pdbg_target*)i_chip.getChip();
}
//------------------------------------------------------------------------------
pdbg_target* getTrgt(const std::string& i_path)
{
return pdbg_target_from_path(nullptr, i_path.c_str());
}
//------------------------------------------------------------------------------
const char* getPath(pdbg_target* i_trgt)
{
return pdbg_target_path(i_trgt);
}
const char* getPath(const libhei::Chip& i_chip)
{
return getPath(getTrgt(i_chip));
}
//------------------------------------------------------------------------------
uint32_t getChipPos(pdbg_target* i_trgt)
{
uint32_t attr = 0;
pdbg_target_get_attribute(i_trgt, "ATTR_FAPI_POS", 4, 1, &attr);
return attr;
}
uint32_t getChipPos(const libhei::Chip& i_chip)
{
return getChipPos(getTrgt(i_chip));
}
//------------------------------------------------------------------------------
uint8_t getTrgtType(pdbg_target* i_trgt)
{
uint8_t attr = 0;
pdbg_target_get_attribute(i_trgt, "ATTR_TYPE", 1, 1, &attr);
return attr;
}
uint8_t getTrgtType(const libhei::Chip& i_chip)
{
return getTrgtType(getTrgt(i_chip));
}
//------------------------------------------------------------------------------
pdbg_target* getPibTrgt(pdbg_target* i_procTrgt)
{
// The input target must be a processor.
assert(TYPE_PROC == getTrgtType(i_procTrgt));
// Get the pib path.
char path[16];
sprintf(path, "/proc%d/pib", pdbg_target_index(i_procTrgt));
// Return the pib target.
pdbg_target* pibTrgt = pdbg_target_from_path(nullptr, path);
assert(nullptr != pibTrgt);
return pibTrgt;
}
//------------------------------------------------------------------------------
pdbg_target* getFsiTrgt(pdbg_target* i_procTrgt)
{
// The input target must be a processor.
assert(TYPE_PROC == getTrgtType(i_procTrgt));
// Get the fsi path.
char path[16];
sprintf(path, "/proc%d/fsi", pdbg_target_index(i_procTrgt));
// Return the fsi target.
pdbg_target* fsiTrgt = pdbg_target_from_path(nullptr, path);
assert(nullptr != fsiTrgt);
return fsiTrgt;
}
//------------------------------------------------------------------------------
int getScom(pdbg_target* i_trgt, uint64_t i_addr, uint64_t& o_val)
{
// Only processor targets are supported.
// TODO: Will need to add OCMB support later.
assert(TYPE_PROC == getTrgtType(i_trgt));
auto pibTrgt = util::pdbg::getPibTrgt(i_trgt);
int rc = pib_read(pibTrgt, i_addr, &o_val);
if (0 != rc)
{
trace::err("pib_read failure: target=%s addr=0x%0" PRIx64,
util::pdbg::getPath(pibTrgt), i_addr);
}
return rc;
}
//------------------------------------------------------------------------------
int getCfam(pdbg_target* i_trgt, uint32_t i_addr, uint32_t& o_val)
{
// Only processor targets are supported.
assert(TYPE_PROC == getTrgtType(i_trgt));
auto fsiTrgt = util::pdbg::getFsiTrgt(i_trgt);
int rc = fsi_read(fsiTrgt, i_addr, &o_val);
if (0 != rc)
{
trace::err("fsi_read failure: target=%s addr=0x%08x",
util::pdbg::getPath(fsiTrgt), i_addr);
}
return rc;
}
//------------------------------------------------------------------------------
// IMPORTANT:
// The ATTR_CHIP_ID attribute will be synced from Hostboot to the BMC at some
// point during the IPL. It is possible that this information is needed before
// the sync occurs, in which case the value will return 0.
uint32_t __getChipId(pdbg_target* i_trgt)
{
uint32_t attr = 0;
pdbg_target_get_attribute(i_trgt, "ATTR_CHIP_ID", 4, 1, &attr);
return attr;
}
// IMPORTANT:
// The ATTR_EC attribute will be synced from Hostboot to the BMC at some point
// during the IPL. It is possible that this information is needed before the
// sync occurs, in which case the value will return 0.
uint8_t __getChipEc(pdbg_target* i_trgt)
{
uint8_t attr = 0;
pdbg_target_get_attribute(i_trgt, "ATTR_EC", 1, 1, &attr);
return attr;
}
uint32_t __getChipIdEc(pdbg_target* i_trgt)
{
auto chipId = __getChipId(i_trgt);
auto chipEc = __getChipEc(i_trgt);
if (((0 == chipId) || (0 == chipEc)) && (TYPE_PROC == getTrgtType(i_trgt)))
{
// There is a special case where the model/level attributes have not
// been initialized in the devtree. This is possible on the epoch IPL
// where an attention occurs before Hostboot is able to update the
// devtree information on the BMC. It may is still possible to get this
// information from chips with CFAM access (i.e. a processor) via the
// CFAM chip ID register.
uint32_t val = 0;
if (0 == getCfam(i_trgt, 0x100a, val))
{
chipId = ((val & 0x0F0FF000) >> 12);
chipEc = ((val & 0xF0000000) >> 24) | ((val & 0x00F00000) >> 20);
}
}
return ((chipId & 0xffff) << 16) | (chipEc & 0xff);
}
void __addChip(std::vector<libhei::Chip>& o_chips, pdbg_target* i_trgt,
libhei::ChipType_t i_type)
{
// Trace each chip for debug. It is important to show the type just in case
// the model/EC does not exist. See note below.
trace::inf("Chip found: type=0x%08" PRIx32 " chip=%s", i_type,
getPath(i_trgt));
if (0 == i_type)
{
// This is a special case. See the details in __getChipIdEC(). There is
// nothing more we can do with this chip since we don't know what it is.
// So ignore the chip for now.
}
else
{
o_chips.emplace_back(i_trgt, i_type);
}
}
void getActiveChips(std::vector<libhei::Chip>& o_chips)
{
o_chips.clear();
// Iterate each processor.
pdbg_target* procTrgt;
pdbg_for_each_class_target("proc", procTrgt)
{
// We cannot use the proc target to determine if the chip is active.
// There is some design limitation in pdbg that requires the proc
// targets to always be active. Instead, we must get the associated pib
// target and check if it is active.
// Active processors only.
if (PDBG_TARGET_ENABLED != pdbg_target_probe(getPibTrgt(procTrgt)))
continue;
// Add the processor to the list.
__addChip(o_chips, procTrgt, __getChipIdEc(procTrgt));
// Iterate the connected OCMBs, if they exist.
pdbg_target* ocmbTrgt;
pdbg_for_each_target("ocmb", procTrgt, ocmbTrgt)
{
// Active OCMBs only.
if (PDBG_TARGET_ENABLED != pdbg_target_probe(ocmbTrgt))
continue;
// Add the OCMB to the list.
__addChip(o_chips, ocmbTrgt, __getChipIdEc(ocmbTrgt));
}
}
}
//------------------------------------------------------------------------------
pdbg_target* getPrimaryProcessor()
{
// TODO: For at least P10, the primary processor (the one connected directly
// to the BMC), will always be PROC 0. We will need to update this
// later if we ever support an alternate primary processor.
return getTrgt("/proc0");
}
//------------------------------------------------------------------------------
bool queryHardwareAnalysisSupported()
{
// Hardware analysis is only supported on P10 systems and up.
return (PDBG_PROC_P9 < pdbg_get_proc());
}
//------------------------------------------------------------------------------
std::string getLocationCode(pdbg_target* trgt)
{
if (nullptr == trgt)
{
// Either the path is wrong or the attribute doesn't exist.
return std::string{};
}
#ifdef CONFIG_PHAL_API
ATTR_LOCATION_CODE_Type val;
if (DT_GET_PROP(ATTR_LOCATION_CODE, trgt, val))
{
// Get the immediate parent in the devtree path and try again.
return getLocationCode(pdbg_target_parent(nullptr, trgt));
}
// Attribute found.
return std::string{val};
#else
return std::string{getPath(trgt)};
#endif
}
//------------------------------------------------------------------------------
std::string getPhysDevPath(pdbg_target* trgt)
{
if (nullptr == trgt)
{
// Either the path is wrong or the attribute doesn't exist.
return std::string{};
}
#ifdef CONFIG_PHAL_API
ATTR_PHYS_DEV_PATH_Type val;
if (DT_GET_PROP(ATTR_PHYS_DEV_PATH, trgt, val))
{
// Get the immediate parent in the devtree path and try again.
return getPhysDevPath(pdbg_target_parent(nullptr, trgt));
}
// Attribute found.
return std::string{val};
#else
return std::string{getPath(trgt)};
#endif
}
//------------------------------------------------------------------------------
std::vector<uint8_t> getPhysBinPath(pdbg_target* target)
{
std::vector<uint8_t> binPath;
if (nullptr != target)
{
#ifdef CONFIG_PHAL_API
ATTR_PHYS_BIN_PATH_Type value;
if (DT_GET_PROP(ATTR_PHYS_BIN_PATH, target, value))
{
// The attrirbute for this target does not exist. Get the immediate
// parent in the devtree path and try again. Note that if there is
// no parent target, nullptr will be returned and that will be
// checked above.
return getPhysBinPath(pdbg_target_parent(nullptr, target));
}
// Attribute was found. Copy the attribute array to the returned
// vector. Note that the reason we return the vector instead of just
// returning the array is because the array type and details only
// exists in this specific configuration.
binPath.insert(binPath.end(), value, value + sizeof(value));
#endif
}
return binPath;
}
//------------------------------------------------------------------------------
} // namespace pdbg
} // namespace util