util/pdbg.hpp - openbmc/openpower-hw-diags - Gitiles

 #pragma once

 #include <libpdbg.h>

 #include <analyzer/callout.hpp>

 #include <string>
 #include <vector>

 // Forward reference to avoid pulling the libhei library into everything that
 // includes this header.
 namespace libhei
 {
 class Chip;
 }

 namespace util
 {

 namespace pdbg
 {

 /** Chip target types. */
 enum TargetType_t : uint8_t
 {
     TYPE_DIMM = 0x03,
     TYPE_PROC = 0x05,
     TYPE_CORE = 0x07,
     TYPE_NX = 0x1e,
     TYPE_EQ = 0x23,
     TYPE_PEC = 0x2d,
     TYPE_PHB = 0x2e,
     TYPE_MC = 0x44,
     TYPE_IOLINK = 0x47,
     TYPE_OMI = 0x48,
     TYPE_MCC = 0x49,
     TYPE_OMIC = 0x4a,
     TYPE_OCMB = 0x4b,
     TYPE_MEM_PORT = 0x4c,
     TYPE_NMMU = 0x4f,
     TYPE_PAU = 0x50,
     TYPE_IOHS = 0x51,
     TYPE_PAUC = 0x52,
 };

 /** @return The target associated with the given chip. */
 pdbg_target* getTrgt(const libhei::Chip& i_chip);

 /** @return The target associated with the given devtree path. */
 pdbg_target* getTrgt(const std::string& i_path);

 /** @return A string representing the given target's devtree path. */
 const char* getPath(pdbg_target* i_trgt);

 /** @return A string representing the given chip's devtree path. */
 const char* getPath(const libhei::Chip& i_chip);

 /** @return The absolute position of the given target. */
 uint32_t getChipPos(pdbg_target* i_trgt);

 /** @return The absolute position of the given chip. */
 uint32_t getChipPos(const libhei::Chip& i_chip);

 /** @return The unit position of a target within a chip. */
 uint8_t getUnitPos(pdbg_target* i_trgt);

 /** @return The target type of the given target. */
 uint8_t getTrgtType(pdbg_target* i_trgt);

 /** @return The target type of the given chip. */
 uint8_t getTrgtType(const libhei::Chip& i_chip);

 /** @return The parent chip target of the given unit target. */
 pdbg_target* getParentChip(pdbg_target* i_unitTarget);

 /** @return The parent processor chip target of the given target. */
 pdbg_target* getParentProcessor(pdbg_target* i_target);

 /** @return The unit target within chip of the given unit type and position
  *          relative to the chip. */
 pdbg_target* getChipUnit(pdbg_target* i_parentChip, TargetType_t i_unitType,
                          uint8_t i_unitPos);

 /**
  * @return The connected target on the other side of the given bus.
  * @param  i_rxTarget The target on the receiving side (RX) of the bus.
  * @param  i_busType  The bus type.
  */
 pdbg_target* getConnectedTarget(pdbg_target* i_rxTarget,
                                 const analyzer::callout::BusType& i_busType);

 /**
  * @return The pib target associated with the given proc target.
  * @note   Will assert the given target is a proc target.
  * @note   Will assert the returned pib target it not nullptr.
  */
 pdbg_target* getPibTrgt(pdbg_target* i_procTrgt);

 /**
  * @return The fsi target associated with the given proc target.
  * @note   Will assert the given target is a proc target.
  * @note   Will assert the returned fsi target it not nullptr.
  */
 pdbg_target* getFsiTrgt(pdbg_target* i_procTrgt);

 /**
  * @brief  Reads a SCOM register.
  * @param  i_trgt Given target.
  * @param  i_addr Given address.
  * @param  o_val  The returned value of the register.
  * @return 0 if successful, non-0 otherwise.
  * @note   Will assert the given target is a proc target.
  */
 int getScom(pdbg_target* i_trgt, uint64_t i_addr, uint64_t& o_val);

 /**
  * @brief  Reads a CFAM FSI register.
  * @param  i_trgt Given target.
  * @param  i_addr Given address.
  * @param  o_val  The returned value of the register.
  * @return 0 if successful, non-0 otherwise.
  * @note   Will assert the given target is a proc target.
  */
 int getCfam(pdbg_target* i_trgt, uint32_t i_addr, uint32_t& o_val);

 /**
  * @brief Returns the list of all active chips in the system.
  * @param o_chips The returned list of chips.
  */
 void getActiveChips(std::vector<libhei::Chip>& o_chips);

 /**
  * @brief Returns the list of all active processor chips in the system.
  * @param o_chips The returned list of chips.
  */
 void getActiveProcessorChips(std::vector<pdbg_target*>& o_chips);

 /**
  * @return The primary processor (i.e. the processor connected to the BMC).
  */
 pdbg_target* getPrimaryProcessor();

 /**
  * @return True, if hardware analysis is supported on this system. False,
  *         otherwise.
  * @note   Support for hardware analysis from the BMC started with P10 systems
  *         and is not supported on any older chip generations.
  */
 bool queryHardwareAnalysisSupported();

 /**
  * @return A string containing the FRU location code of the given chip. An empty
  *         string indicates the target was null or the attribute does not exist
  *         for this target.
  * @note   This function requires PHAL APIs that are only available in certain
  *         environments. If they do not exist the devtree path of the target is
  *         returned.
  */
 std::string getLocationCode(pdbg_target* trgt);

 /**
  * @return A string containing the physical device path (entity path) of the
  *         given chip. An empty string indicates the target was null or the
  *         attribute does not exist for this target.
  * @note   This function requires PHAL APIs that are only available in certain
  *         environments. If they do not exist the devtree path of the target is
  *         returned.
  */
 std::string getPhysDevPath(pdbg_target* trgt);

 /**
  * @return A vector of bytes representing the numerical values of the physical
  *         device path (entity path) of the given target. An empty vector
  *         indicates the target was null or the attribute does not exist for
  *         this target or any parent targets along the device tree path.
  * @note   This function requires PHAL APIs that are only available in certain
  *         environments. If they do not exist, an empty vector is returned.
  */
 std::vector<uint8_t> getPhysBinPath(pdbg_target* trgt);

 /**
  * @brief  Uses an SBE chip-op to query if there has been an LPC timeout.
  * @return True, if there was an LPC timeout. False, otherwise.
  */
 bool queryLpcTimeout(pdbg_target* target);

 } // namespace pdbg

 } // namespace util
	#pragma once

	#include <libpdbg.h>

	#include <analyzer/callout.hpp>

	#include <string>
	#include <vector>

	// Forward reference to avoid pulling the libhei library into everything that
	// includes this header.
	namespace libhei
	{
	class Chip;
	}

	namespace util
	{

	namespace pdbg
	{

	/** Chip target types. */
	enum TargetType_t : uint8_t
	{
	TYPE_DIMM = 0x03,
	TYPE_PROC = 0x05,
	TYPE_CORE = 0x07,
	TYPE_NX = 0x1e,
	TYPE_EQ = 0x23,
	TYPE_PEC = 0x2d,
	TYPE_PHB = 0x2e,
	TYPE_MC = 0x44,
	TYPE_IOLINK = 0x47,
	TYPE_OMI = 0x48,
	TYPE_MCC = 0x49,
	TYPE_OMIC = 0x4a,
	TYPE_OCMB = 0x4b,
	TYPE_MEM_PORT = 0x4c,
	TYPE_NMMU = 0x4f,
	TYPE_PAU = 0x50,
	TYPE_IOHS = 0x51,
	TYPE_PAUC = 0x52,
	};

	/** @return The target associated with the given chip. */
	pdbg_target* getTrgt(const libhei::Chip& i_chip);

	/** @return The target associated with the given devtree path. */
	pdbg_target* getTrgt(const std::string& i_path);

	/** @return A string representing the given target's devtree path. */
	const char* getPath(pdbg_target* i_trgt);

	/** @return A string representing the given chip's devtree path. */
	const char* getPath(const libhei::Chip& i_chip);

	/** @return The absolute position of the given target. */
	uint32_t getChipPos(pdbg_target* i_trgt);

	/** @return The absolute position of the given chip. */
	uint32_t getChipPos(const libhei::Chip& i_chip);

	/** @return The unit position of a target within a chip. */
	uint8_t getUnitPos(pdbg_target* i_trgt);

	/** @return The target type of the given target. */
	uint8_t getTrgtType(pdbg_target* i_trgt);

	/** @return The target type of the given chip. */
	uint8_t getTrgtType(const libhei::Chip& i_chip);

	/** @return The parent chip target of the given unit target. */
	pdbg_target* getParentChip(pdbg_target* i_unitTarget);

	/** @return The parent processor chip target of the given target. */
	pdbg_target* getParentProcessor(pdbg_target* i_target);

	/** @return The unit target within chip of the given unit type and position
	* relative to the chip. */
	pdbg_target* getChipUnit(pdbg_target* i_parentChip, TargetType_t i_unitType,
	uint8_t i_unitPos);

	/**
	* @return The connected target on the other side of the given bus.
	* @param i_rxTarget The target on the receiving side (RX) of the bus.
	* @param i_busType The bus type.
	*/
	pdbg_target* getConnectedTarget(pdbg_target* i_rxTarget,
	const analyzer::callout::BusType& i_busType);

	/**
	* @return The pib target associated with the given proc target.
	* @note Will assert the given target is a proc target.
	* @note Will assert the returned pib target it not nullptr.
	*/
	pdbg_target* getPibTrgt(pdbg_target* i_procTrgt);

	/**
	* @return The fsi target associated with the given proc target.
	* @note Will assert the given target is a proc target.
	* @note Will assert the returned fsi target it not nullptr.
	*/
	pdbg_target* getFsiTrgt(pdbg_target* i_procTrgt);

	/**
	* @brief Reads a SCOM register.
	* @param i_trgt Given target.
	* @param i_addr Given address.
	* @param o_val The returned value of the register.
	* @return 0 if successful, non-0 otherwise.
	* @note Will assert the given target is a proc target.
	*/
	int getScom(pdbg_target* i_trgt, uint64_t i_addr, uint64_t& o_val);

	/**
	* @brief Reads a CFAM FSI register.
	* @param i_trgt Given target.
	* @param i_addr Given address.
	* @param o_val The returned value of the register.
	* @return 0 if successful, non-0 otherwise.
	* @note Will assert the given target is a proc target.
	*/
	int getCfam(pdbg_target* i_trgt, uint32_t i_addr, uint32_t& o_val);

	/**
	* @brief Returns the list of all active chips in the system.
	* @param o_chips The returned list of chips.
	*/
	void getActiveChips(std::vector<libhei::Chip>& o_chips);

	/**
	* @brief Returns the list of all active processor chips in the system.
	* @param o_chips The returned list of chips.
	*/
	void getActiveProcessorChips(std::vector<pdbg_target*>& o_chips);

	/**
	* @return The primary processor (i.e. the processor connected to the BMC).
	*/
	pdbg_target* getPrimaryProcessor();

	/**
	* @return True, if hardware analysis is supported on this system. False,
	* otherwise.
	* @note Support for hardware analysis from the BMC started with P10 systems
	* and is not supported on any older chip generations.
	*/
	bool queryHardwareAnalysisSupported();

	/**
	* @return A string containing the FRU location code of the given chip. An empty
	* string indicates the target was null or the attribute does not exist
	* for this target.
	* @note This function requires PHAL APIs that are only available in certain
	* environments. If they do not exist the devtree path of the target is
	* returned.
	*/
	std::string getLocationCode(pdbg_target* trgt);

	/**
	* @return A string containing the physical device path (entity path) of the
	* given chip. An empty string indicates the target was null or the
	* attribute does not exist for this target.
	* @note This function requires PHAL APIs that are only available in certain
	* environments. If they do not exist the devtree path of the target is
	* returned.
	*/
	std::string getPhysDevPath(pdbg_target* trgt);

	/**
	* @return A vector of bytes representing the numerical values of the physical
	* device path (entity path) of the given target. An empty vector
	* indicates the target was null or the attribute does not exist for
	* this target or any parent targets along the device tree path.
	* @note This function requires PHAL APIs that are only available in certain
	* environments. If they do not exist, an empty vector is returned.
	*/
	std::vector<uint8_t> getPhysBinPath(pdbg_target* trgt);

	/**
	* @brief Uses an SBE chip-op to query if there has been an LPC timeout.
	* @return True, if there was an LPC timeout. False, otherwise.
	*/
	bool queryLpcTimeout(pdbg_target* target);

	} // namespace pdbg

	} // namespace util