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Diffstat (limited to 'sbe/hwpf/src/plat/target.C')
-rw-r--r-- | sbe/hwpf/src/plat/target.C | 609 |
1 files changed, 0 insertions, 609 deletions
diff --git a/sbe/hwpf/src/plat/target.C b/sbe/hwpf/src/plat/target.C deleted file mode 100644 index 501952b3..00000000 --- a/sbe/hwpf/src/plat/target.C +++ /dev/null @@ -1,609 +0,0 @@ -/* IBM_PROLOG_BEGIN_TAG */ -/* This is an automatically generated prolog. */ -/* */ -/* $Source: sbe/hwpf/src/plat/target.C $ */ -/* */ -/* OpenPOWER sbe Project */ -/* */ -/* Contributors Listed Below - COPYRIGHT 2012,2016 */ -/* */ -/* */ -/* Licensed under the Apache License, Version 2.0 (the "License"); */ -/* you may not use this file except in compliance with the License. */ -/* You may obtain a copy of the License at */ -/* */ -/* http://www.apache.org/licenses/LICENSE-2.0 */ -/* */ -/* Unless required by applicable law or agreed to in writing, software */ -/* distributed under the License is distributed on an "AS IS" BASIS, */ -/* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or */ -/* implied. See the License for the specific language governing */ -/* permissions and limitations under the License. */ -/* */ -/* IBM_PROLOG_END_TAG */ - - -#include <fapi2.H> -#include <assert.h> -#include <fapi2_target.H> -#include <plat_target_utils.H> - -// Global Vector containing ALL targets. This structure is referenced by -// fapi2::getChildren to produce the resultant returned vector from that -// call. -std::vector<fapi2::plat_target_handle_t> G_vec_targets; - -// Global variable for fixed section in pibmem -G_sbe_attrs_t G_sbe_attrs; - -fapi2attr::SystemAttributes_t* G_system_attributes_ptr; -fapi2attr::ProcChipAttributes_t* G_proc_chip_attributes_ptr; -fapi2attr::PervAttributes_t* G_perv_attributes_ptr; -fapi2attr::CoreAttributes_t* G_core_attributes_ptr; -fapi2attr::EQAttributes_t* G_eq_attributes_ptr; -fapi2attr::EXAttributes_t* G_ex_attributes_ptr; - -namespace fapi2 -{ - // Get the plat target handle by chiplet number - For PERV targets - template<> - plat_target_handle_t plat_getTargetHandleByChipletNumber<TARGET_TYPE_PERV>( - const uint8_t i_chipletNumber) - { - uint32_t l_idx = 0; - - if((i_chipletNumber > 0) && - (i_chipletNumber < (EQ_CHIPLET_OFFSET + EQ_TARGET_COUNT))) - { - l_idx = (i_chipletNumber - NEST_GROUP1_CHIPLET_OFFSET) + - NEST_GROUP1_TARGET_OFFSET; - } - else if((i_chipletNumber >= CORE_CHIPLET_OFFSET) && - (i_chipletNumber < (CORE_CHIPLET_OFFSET + CORE_TARGET_COUNT))) - { - l_idx = (i_chipletNumber - CORE_CHIPLET_OFFSET) + - CORE_TARGET_OFFSET; - } - else - { - assert(false); - } - return G_vec_targets[l_idx]; - } - - // Get the plat target handle by chiplet number - For EQ targets - template<> - plat_target_handle_t plat_getTargetHandleByChipletNumber<TARGET_TYPE_EQ>( - const uint8_t i_chipletNumber) - { - assert(((i_chipletNumber >= EQ_CHIPLET_OFFSET) && - (i_chipletNumber < (EQ_CHIPLET_OFFSET + EQ_TARGET_COUNT)))) - - uint32_t l_idx = (i_chipletNumber - EQ_CHIPLET_OFFSET) + - EQ_TARGET_OFFSET; - return G_vec_targets[l_idx]; - } - - // Get the plat target handle by chiplet number - For CORE targets - template<> - plat_target_handle_t plat_getTargetHandleByChipletNumber<TARGET_TYPE_CORE>( - const uint8_t i_chipletNumber) - { - assert(((i_chipletNumber >= CORE_CHIPLET_OFFSET) && - (i_chipletNumber < (CORE_CHIPLET_OFFSET + CORE_TARGET_COUNT)))); - - uint32_t l_idx = (i_chipletNumber - CORE_CHIPLET_OFFSET) + - CORE_TARGET_OFFSET; - - return G_vec_targets[l_idx]; - } - - // Get the plat target handle by chiplet number - For EX targets - template<> - plat_target_handle_t plat_getTargetHandleByChipletNumber<TARGET_TYPE_EX>( - const uint8_t i_chipletNumber) - { - assert(((i_chipletNumber >= CORE_CHIPLET_OFFSET) && - (i_chipletNumber < (CORE_CHIPLET_OFFSET + CORE_TARGET_COUNT)))); - - uint32_t l_idx = ((i_chipletNumber - CORE_CHIPLET_OFFSET) / 2) + - EX_TARGET_OFFSET; - - return G_vec_targets[l_idx]; - } - - // Get plat target handle by instance number - For EX targets - template <> - plat_target_handle_t plat_getTargetHandleByInstance<TARGET_TYPE_EX>( - const uint8_t i_targetNum) - { - assert(i_targetNum < EX_TARGET_COUNT); - - return G_vec_targets[i_targetNum + EX_TARGET_OFFSET]; - } - - - TargetType plat_target_handle_t::getFapiTargetType() const - { - TargetType l_targetType = TARGET_TYPE_NONE; - switch(fields.type) - { - case PPE_TARGET_TYPE_PROC_CHIP: - l_targetType = TARGET_TYPE_PROC_CHIP; - break; - case PPE_TARGET_TYPE_MCS: - l_targetType = TARGET_TYPE_MCS; - break; - case PPE_TARGET_TYPE_CORE | PPE_TARGET_TYPE_PERV: - l_targetType = TARGET_TYPE_CORE; - break; - case PPE_TARGET_TYPE_EQ | PPE_TARGET_TYPE_PERV: - l_targetType = TARGET_TYPE_EQ; - break; - case PPE_TARGET_TYPE_EX: - l_targetType = TARGET_TYPE_EX; - break; - case PPE_TARGET_TYPE_PERV: - l_targetType = TARGET_TYPE_PERV; - break; - case PPE_TARGET_TYPE_SYSTEM: - l_targetType = TARGET_TYPE_SYSTEM; - break; - case PPE_TARGET_TYPE_MCBIST | PPE_TARGET_TYPE_PERV: - l_targetType = TARGET_TYPE_MCBIST; - break; - case PPE_TARGET_TYPE_NONE: - case PPE_TARGET_TYPE_ALL: - default: - assert(false); - break; - } - return l_targetType; - } - - void plat_target_handle_t::getChildren(const TargetType i_parentType, - const TargetType i_childType, - const plat_target_type_t i_platType, - const TargetState i_state, - std::vector<plat_target_handle> - &o_children) const - { - uint32_t l_childPerChiplet = 0; - uint32_t l_childTargetOffset = 0; - uint32_t l_loopCount = G_vec_targets.size(); - TargetType l_targetType = i_parentType; - - if((i_parentType & ~(TARGET_TYPE_PROC_CHIP)) != 0) - { - // For composite targets, if multicast, treat as PROC_CHIP, else - // treat as other target - if(this->fields.is_multicast) - { - l_targetType = TARGET_TYPE_PROC_CHIP; - } - else - { - l_targetType = - static_cast<TargetType>(l_targetType & ~(TARGET_TYPE_PROC_CHIP)); - } - } - - // EQ ==> EX - if((l_targetType == TARGET_TYPE_EQ) && (i_childType == TARGET_TYPE_EX)) - { - l_childPerChiplet = EX_PER_QUAD; - l_childTargetOffset = EX_TARGET_OFFSET; - l_loopCount = l_childPerChiplet; - } - - // EQ ==> EC - if((l_targetType == TARGET_TYPE_EQ) && (i_childType == TARGET_TYPE_CORE)) - { - l_childPerChiplet = CORES_PER_QUAD; - l_childTargetOffset = CORE_TARGET_OFFSET; - l_loopCount = l_childPerChiplet; - } - - // EX ==> EC - if((l_targetType == TARGET_TYPE_EX) && (i_childType == TARGET_TYPE_CORE)) - { - l_childPerChiplet = CORES_PER_EX; - l_childTargetOffset = CORE_TARGET_OFFSET; - l_loopCount = l_childPerChiplet; - } - // else it is TARGET_TYPE_PROC_CHIP ==> anything, and we iterate over - // all the targets - - for(uint32_t i = 0; i < l_loopCount; ++i) - { - plat_target_handle_t l_temp = - G_vec_targets.at((this->fields.type_target_num * - l_childPerChiplet) + l_childTargetOffset + i); - if ((l_temp.fields.type & i_platType) == i_platType) - { - switch (i_state) - { - case TARGET_STATE_PRESENT: - if (l_temp.fields.present) - { - o_children.push_back(l_temp); - } - break; - case TARGET_STATE_FUNCTIONAL: - if (l_temp.fields.functional) - { - o_children.push_back(l_temp); - } - break; - default: - assert(false); - } - } - } - } - - void plat_target_handle_t::getChildren(const TargetFilter i_filter, - const TargetState i_state, - std::vector<plat_target_handle_t> - &o_children) const - { - static const uint64_t mask = 1; - - // Walk the bits in the input target filter. For every bit, at - // position x, that is set, x can be used as an index into our global - // target vector (indexed by chiplet number) - for (uint32_t l_idx = 0; - l_idx < sizeof(TargetFilter) * 8; - ++l_idx) - { - if (i_filter & (mask << (((sizeof(TargetFilter)*8)-1) - l_idx))) - { - plat_target_handle_t l_targetHandle = G_vec_targets.at(l_idx + NEST_GROUP1_CHIPLET_OFFSET); - - if(l_targetHandle.fields.type & PPE_TARGET_TYPE_PERV) // Can be an assertion? - { - switch (i_state) - { - case TARGET_STATE_PRESENT: - if(l_targetHandle.fields.present) - { - o_children.push_back(l_targetHandle); - } - break; - case TARGET_STATE_FUNCTIONAL: - if(l_targetHandle.fields.functional) - { - o_children.push_back(l_targetHandle); - } - break; - default: - break; - } - } - } - } - } - - #ifndef __noRC__ - ReturnCode current_err; - #endif - - fapi2::ReturnCode plat_PervPGTargets(const fapi2::Target<fapi2::TARGET_TYPE_PERV> & i_target, - bool & o_present) - { - o_present = false; - uint32_t attr_value = 0; - FAPI_ATTR_GET(fapi2::ATTR_PG, - i_target, - attr_value); - FAPI_DBG("Target: 0x%08X, ATTR_PG value = %x", static_cast<uint32_t>(i_target.get().value), attr_value); - if (0 == (attr_value & 0x1000)) - { - o_present = true; - } - return fapi2::FAPI2_RC_SUCCESS; - } - - /// @brief Function to determine if pervsaive target within a chip is - /// present and, thus, considered functional per PG attributes - fapi2::ReturnCode - plat_TargetPresent( fapi2::Target<fapi2::TARGET_TYPE_PERV> & i_chiplet_target, - bool & b_present) - { - - // Find the PERV target number in the partial good initialization - // array - FAPI_TRY(plat_PervPGTargets(i_chiplet_target, b_present)); - - if (b_present) - { - i_chiplet_target.setPresent(); - i_chiplet_target.setFunctional(true); - } - else - { - FAPI_DBG("Perv target NOT present (nor functional): chiplet_number = %d", - i_chiplet_target.getChipletNumber()); - } - - FAPI_DBG("Target present = %u, Target functional = %u", - i_chiplet_target.getPresent(), - i_chiplet_target.getFunctional()); - -fapi_try_exit: - return fapi2::current_err; - } - - - /// @brief Function to initialize the G_targets vector based on partial good - /// attributes /// this will move to plat_target.H formally - fapi2::ReturnCode plat_TargetsInit() - { - bool b_present = false; - - // Copy fixed section from SEEPROM to PIBMEM - G_sbe_attrs.G_system_attrs = G_system_attributes; - G_sbe_attrs.G_proc_chip_attrs = G_proc_chip_attributes; - G_sbe_attrs.G_perv_attrs = G_perv_attributes; - G_sbe_attrs.G_core_attrs = G_core_attributes; - G_sbe_attrs.G_eq_attrs = G_eq_attributes; - G_sbe_attrs.G_ex_attrs = G_ex_attributes; - - // Initialise global attribute pointers - G_system_attributes_ptr = &(G_sbe_attrs.G_system_attrs); - G_proc_chip_attributes_ptr = &(G_sbe_attrs.G_proc_chip_attrs); - G_perv_attributes_ptr = &(G_sbe_attrs.G_perv_attrs); - G_core_attributes_ptr = &(G_sbe_attrs.G_core_attrs); - G_eq_attributes_ptr = &(G_sbe_attrs.G_eq_attrs); - G_ex_attributes_ptr = &(G_sbe_attrs.G_ex_attrs); - - - std::vector<fapi2::plat_target_handle_t>::iterator tgt_iter; - uint32_t l_beginning_offset; - - FAPI_DBG("Platform target initialization. Target Count = %u", TARGET_COUNT); - /* - * Initialize all entries to NULL - */ - for (uint32_t i = 0; i < TARGET_COUNT; ++i) - { - G_vec_targets.push_back((fapi2::plat_target_handle_t)0x0); - } - - /* - * Chip Target is the first one - */ - l_beginning_offset = CHIP_TARGET_OFFSET; - - fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP> chip_target((createPlatTargetHandle<fapi2::TARGET_TYPE_PROC_CHIP>(0))); - G_vec_targets.at(l_beginning_offset) = revle32((fapi2::plat_target_handle_t)(chip_target.get())); - - /* - * Nest Targets - group 1 - */ - l_beginning_offset = NEST_GROUP1_TARGET_OFFSET; - for (uint32_t i = 0; i < NEST_GROUP1_TARGET_COUNT; ++i) - { - fapi2::Target<fapi2::TARGET_TYPE_PERV> target_name((createPlatTargetHandle<fapi2::TARGET_TYPE_PERV>(i))); - - // Determine if the chiplet is present and, thus, functional - // via partial good attributes - FAPI_TRY(plat_TargetPresent(target_name, b_present)); - - G_vec_targets.at(l_beginning_offset+i) = revle32((fapi2::plat_target_handle_t)(target_name.get())); - } - - /* - * Memory Controller Synchronous (MCBIST) Targets - */ - - l_beginning_offset = MCBIST_TARGET_OFFSET; - for (uint32_t i = 0; i < MCBIST_TARGET_COUNT; ++i) - { - fapi2::Target<fapi2::TARGET_TYPE_MCBIST> target_name((createPlatTargetHandle<fapi2::TARGET_TYPE_MCBIST>(i))); - fapi2::Target<fapi2::TARGET_TYPE_PERV> l_perv = target_name.getParent<fapi2::TARGET_TYPE_PERV>(); - - // Determine if the chiplet is present and, thus, functional - // via partial good attributes - FAPI_TRY(plat_TargetPresent(l_perv, b_present)); - - G_vec_targets.at(l_beginning_offset+i) = revle32((fapi2::plat_target_handle_t)(l_perv.get())); - - } - - /* - * Nest Targets - group 2 - */ - l_beginning_offset = NEST_GROUP2_TARGET_OFFSET; - for (uint32_t i = NEST_GROUP2_TARGET_OFFSET; - i < (NEST_GROUP2_TARGET_OFFSET + NEST_GROUP2_TARGET_COUNT); ++i) - { - fapi2::Target<fapi2::TARGET_TYPE_PERV> target_name((createPlatTargetHandle<fapi2::TARGET_TYPE_PERV>(i - 1))); - - // Determine if the chiplet is present and, thus, functional - // via partial good attributes - FAPI_TRY(plat_TargetPresent(target_name, b_present)); - - G_vec_targets.at(i) = revle32((fapi2::plat_target_handle_t)(target_name.get())); - } - - /* - * Cache (EQ) Targets - */ - l_beginning_offset = EQ_TARGET_OFFSET; - for (uint32_t i = 0; i < EQ_TARGET_COUNT; ++i) - { - fapi2::Target<fapi2::TARGET_TYPE_EQ> target_name((createPlatTargetHandle<fapi2::TARGET_TYPE_EQ>(i))); - fapi2::Target<fapi2::TARGET_TYPE_PERV> l_perv = target_name.getParent<fapi2::TARGET_TYPE_PERV>(); - - // Determine if the chiplet is present and, thus, functional - // via partial good attributes - FAPI_TRY(plat_TargetPresent(l_perv, b_present)); - - G_vec_targets.at(l_beginning_offset+i) = revle32((fapi2::plat_target_handle_t)(l_perv.get())); - } - - /* - * Core (EC) Targets - */ - - l_beginning_offset = CORE_TARGET_OFFSET; - for (uint32_t i = 0; i < CORE_TARGET_COUNT; ++i) - { - fapi2::Target<fapi2::TARGET_TYPE_CORE> target_name((createPlatTargetHandle<fapi2::TARGET_TYPE_CORE>(i))); - fapi2::Target<fapi2::TARGET_TYPE_PERV> l_perv = target_name.getParent<fapi2::TARGET_TYPE_PERV>(); - - // Determine if the chiplet is present and, thus, functional - // via partial good attributes - FAPI_TRY(plat_TargetPresent(l_perv, b_present)); - - G_vec_targets.at(l_beginning_offset+i) = revle32((fapi2::plat_target_handle_t)(l_perv.get())); - } - - /* - * EX Targets - */ - - l_beginning_offset = EX_TARGET_OFFSET; - for (uint32_t i = 0; i < EX_TARGET_COUNT; ++i) - { - fapi2::Target<fapi2::TARGET_TYPE_EX> target_name((createPlatTargetHandle<fapi2::TARGET_TYPE_EX>(i))); - - fapi2::Target<fapi2::TARGET_TYPE_EQ> l_parent = target_name.getParent<fapi2::TARGET_TYPE_EQ>(); - - // Get the parent EQ's ATTR_PG - uint32_t l_eqAttrPg = 0; - FAPI_ATTR_GET(fapi2::ATTR_PG, l_parent.getParent<TARGET_TYPE_PERV>(), l_eqAttrPg); - - // Check if this EX's L2 and L3 regions are marked "good" - if(0 == (i % EX_PER_QUAD)) - { - // Bits 6 and 8 need to be 0 - l_eqAttrPg &= 0x0280; - } - else - { - // Bits 7 and 9 need to be 0 - l_eqAttrPg &= 0x0140; - } - - if(0 == l_eqAttrPg) - { - target_name.setPresent(); - target_name.setFunctional(true); - } - G_vec_targets.at(l_beginning_offset+i) = revle32((fapi2::plat_target_handle_t)(target_name.get())); - } - - /* - * MCS Targets - */ - - l_beginning_offset = MCS_TARGET_OFFSET; - for (uint32_t i = 0; i < MCS_TARGET_COUNT; ++i) - { - fapi2::Target<fapi2::TARGET_TYPE_MCS> target_name(createPlatTargetHandle<fapi2::TARGET_TYPE_MCS>(i)); - - fapi2::Target<fapi2::TARGET_TYPE_PERV> - l_nestTarget((plat_getTargetHandleByChipletNumber<TARGET_TYPE_PERV>(N3_CHIPLET - (MCS_PER_MCBIST * (i / MCS_PER_MCBIST))))); - - uint32_t l_attrPg = 0; - - FAPI_ATTR_GET(fapi2::ATTR_PG, l_nestTarget, l_attrPg); - - if(0 == (i / MCS_PER_MCBIST)) - { - // Bit 10 needs to be 0 for MCS 0, 1 - l_attrPg &= 0x0020; - } - else - { - // Bit 9 needs to be 0 for MCS 2, 3 - l_attrPg &= 0x0040; - } - - if(0 == l_attrPg) - { - target_name.setPresent(); - target_name.setFunctional(true); - } - - G_vec_targets.at(l_beginning_offset+i) = revle32((fapi2::plat_target_handle_t)(target_name.get())); - } - - -fapi_try_exit: - return fapi2::current_err; - } - - /// @brief Function to initialize the G_targets vector based on partial good - /// attributes - fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP> plat_getChipTarget() - { - - // Get the chip specific target - return ((fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP>)G_vec_targets.at(0)); - } - - /// @brief Function to apply any gard records set (via - // ATTR_EQ_GARD/ATTR_EC_GARD) to mark corresponding targets non functional - ReturnCode plat_ApplyGards() - { - uint8_t l_eqGards = 0; - uint32_t l_ecGards = 0; - static const uint32_t l_mask = 0x80000000; - bool l_coreGroupNonFunctional = true; - fapi2::Target<fapi2::TARGET_TYPE_PROC_CHIP> l_chip = plat_getChipTarget(); - - // Read the EQ and EC gard attributes from the chip target - FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_EQ_GARD, l_chip, l_eqGards)); - FAPI_TRY(FAPI_ATTR_GET(fapi2::ATTR_EC_GARD, l_chip, l_ecGards)); - - FAPI_DBG("ATTR_EQ_GARD:: 0x%08x", l_eqGards); - FAPI_DBG("ATTR_EC_GARD:: 0x%08x", l_ecGards); - - // Iterate over the bits in EQ and EC gards, if set, mark the - // corresponding target non-functional - for(uint32_t l_idx = 0; l_idx < EQ_TARGET_COUNT; ++l_idx) - { - if((l_mask >> l_idx) & (((uint32_t)(l_eqGards)) << 24)) - { - FAPI_DBG("Making %d'th EQ non-functional", l_idx); - // EQ chiplet l_idx is to be marked non-functional - fapi2::Target<fapi2::TARGET_TYPE_EQ> l_target = G_vec_targets.at(l_idx + EQ_TARGET_OFFSET); - l_target.setFunctional(false); - G_vec_targets.at(l_idx + EQ_TARGET_OFFSET) = l_target.get(); - } - } - - for(uint32_t l_idx = 0; l_idx < CORE_TARGET_COUNT; ++l_idx) - { - if((l_mask >> l_idx) & (l_ecGards)) - { - FAPI_DBG("Making %d'th EC non-functional", l_idx); - // EC chiplet l_idx is to be marked non-functional - fapi2::Target<fapi2::TARGET_TYPE_CORE> l_target = G_vec_targets.at(l_idx + CORE_TARGET_OFFSET); - l_target.setFunctional(false); - G_vec_targets.at(l_idx + CORE_TARGET_OFFSET) = l_target.get(); - } - else - { - l_coreGroupNonFunctional = false; - } - if(0 == ((l_idx + 1) % CORES_PER_EX)) - { - if(true == l_coreGroupNonFunctional) - { - // All cores of this group are non-functional. Mark the EX - // non-functional too. - G_vec_targets.at((l_idx / CORES_PER_EX) + EX_TARGET_OFFSET).fields.functional = false; - } - // Reset ex non-functional flag for the next group - l_coreGroupNonFunctional = true; - } - } -fapi_try_exit: - return fapi2::current_err; - } - -} // fapi2 |