sbe_chipOp_handler.cpp - openbmc/openpower-sbe-interface - Gitiles

 #include <array>
 #include <errno.h>
 #include <fcntl.h>
 #include <unistd.h>
 #include <poll.h>
 #include <endian.h>
 #include <sbe_chipOp_handler.hpp>
 #include <file.hpp>
 namespace openpower
 {
 namespace sbe
 {
 namespace internal
 {

 constexpr uint16_t MAGIC_CODE = 0xC0DE;
 constexpr auto SBE_OPERATION_SUCCESSFUL = 0;
 constexpr auto LENGTH_OF_DISTANCE_HEADER_IN_WORDS = 0x1;
 constexpr auto LENGTH_OF_RESP_HEADER_IN_WORDS = 0x2;
 constexpr auto DISTANCE_TO_RESP_CODE = 0x1;
 constexpr auto MAX_FFDC_LEN_IN_WORDS = 5120;
 constexpr auto WORD_SIZE = 4;
 constexpr auto MAGIC_CODE_BITS = 16;
 std::vector<sbe_word_t> writeToFifo(const char* devPath,
                                     const sbe_word_t* cmdBuffer,
                                     size_t cmdBufLen,
                                     size_t respBufLen)
 {
     ssize_t len = 0;
     std::vector<sbe_word_t> response;
     std::ostringstream errMsg;

     //Open the device and obtain the file descriptor associated with it.
     FileDescriptor fileFd(devPath, (O_RDWR | O_NONBLOCK));

     //Wait for FIFO device and perform write operation
     struct pollfd poll_fd = {};
     poll_fd.fd = fileFd();
     poll_fd.events = POLLOUT | POLLERR;

     int rc = 0;
     if ((rc = poll(&poll_fd, 1, -1)) < 0)
     {
         //TODO:use elog infrastructure
         errMsg << "Waiting for FIFO device:" << devPath << "to write failed"
                << "rc=" << rc << "errno=" << errno;
         throw std::runtime_error(errMsg.str().c_str());
     }
     if (poll_fd.revents & POLLERR)
     {
         //TODO:use elog infrastructure
         errMsg << "POLLERR while waiting for writeable FIFO,errno:" << errno;
         throw std::runtime_error(errMsg.str().c_str());
     }
     auto bytesToWrite = (cmdBufLen * WORD_SIZE);
     //Perform the write operation
     len = write(fileFd(), cmdBuffer, bytesToWrite);
     if (len < 0)
     {
         //TODO:use elog infrastructure
         errMsg << "Failed to write to FIFO device:" << devPath << " Length "
                "returned= " << len << " errno=" << errno;
         throw std::runtime_error(errMsg.str().c_str());
     }
     //Wait for FIFO device and perform read operation
     poll_fd.fd = fileFd();
     poll_fd.events = POLLIN | POLLERR;
     if ((rc = poll(&poll_fd, 1, -1) < 0))
     {
         //TODO:use elog infrastructure
         errMsg << "Waiting for FIFO device:" << devPath << "to read failed"
                << " rc=" << rc << " and errno=" << errno;
         throw std::runtime_error(errMsg.str().c_str());
     }
     if (poll_fd.revents & POLLERR)
     {
         //TODO:use elog infrastructure
         errMsg << "POLLERR while waiting for readable FIFO,errno:" << errno;
         throw std::runtime_error(errMsg.str().c_str());
     }
     //Derive the total read length which should include the FFDC, which SBE
     //returns in case of failure.
     size_t totalReadLen = respBufLen + MAX_FFDC_LEN_IN_WORDS;
     //Create a temporary buffer
     std::vector<sbe_word_t> buffer(totalReadLen);

     ssize_t bytesToRead = (totalReadLen * WORD_SIZE);
     len = read(fileFd(), buffer.data(), bytesToRead);
     if (len < 0)
     {
         //TODO:use elog infrastructure
         errMsg << "Failed to read the FIFO device:" << devPath << "bytes read ="
                << len << " errno=" << errno;
         throw std::runtime_error(errMsg.str().c_str());
     }

     //Extract the valid number of words read.
     for (auto i = 0; i < (len / WORD_SIZE); ++i)
     {
         response.push_back(be32toh(buffer[i]));
     }

     //Closing of the file descriptor will be handled when the FileDescriptor
     //object will go out of scope.
     return response;
 }

 void parseResponse(std::vector<sbe_word_t>& sbeDataBuf)
 {
     //Number of 32-bit words obtained from the SBE
     size_t lengthObtained = sbeDataBuf.size();

     //Fetch the SBE header and SBE chiop primary and secondary status
     //Last value in the buffer will have the offset for the SBE header
     size_t distanceToStatusHeader =  sbeDataBuf[sbeDataBuf.size() - 1];

     if (lengthObtained < distanceToStatusHeader)
     {
         //TODO:use elog infrastructure
         std::ostringstream errMsg;
         errMsg << "Distance to SBE status header value " <<
                distanceToStatusHeader << " is greater then total length of "
                "response buffer " << lengthObtained;
         throw std::runtime_error(errMsg.str().c_str());
     }

     //Fetch the response header contents
     auto iter = sbeDataBuf.begin();
     std::advance(iter, (lengthObtained - distanceToStatusHeader));

     //First header word will have 2 bytes of MAGIC CODE followed by
     //Command class and command type
     //|  MAGIC BYTES:0xCODE | COMMAND-CLASS | COMMAND-TYPE|
     sbe_word_t l_magicCode = (*iter >> MAGIC_CODE_BITS);

     //Fetch the primary and secondary response code
     std::advance(iter, DISTANCE_TO_RESP_CODE);
     auto l_priSecResp = *iter;

     //Validate the magic code obtained in the response
     if (l_magicCode != MAGIC_CODE)
     {
         //TODO:use elog infrastructure
         std::ostringstream errMsg;
         errMsg << "Invalid MAGIC keyword in the response header (" <<
                l_magicCode << "),expected keyword " << MAGIC_CODE;
         throw std::runtime_error(errMsg.str().c_str());
     }

     //Validate the Primary and Secondary response value
     if (l_priSecResp != SBE_OPERATION_SUCCESSFUL)
     {
         //Extract the SBE FFDC and throw it to the caller
         size_t ffdcLen = (distanceToStatusHeader -
                           LENGTH_OF_RESP_HEADER_IN_WORDS -
                           LENGTH_OF_DISTANCE_HEADER_IN_WORDS);
         if (ffdcLen)
         {
             std::vector<sbe_word_t> ffdcData(ffdcLen);
             //Fetch the offset of FFDC data
             auto ffdcOffset = (lengthObtained - distanceToStatusHeader) +
                               LENGTH_OF_RESP_HEADER_IN_WORDS;
             std::copy_n((sbeDataBuf.begin() + ffdcOffset), ffdcLen,
                         ffdcData.begin());
         }

         //TODO:use elog infrastructure to return the SBE and Hardware procedure
         //FFDC container back to the caller.
         std::ostringstream errMsg;
         errMsg << "Chip operation failed with SBE response code:" << l_priSecResp
                << ".Length of FFDC data of obtained:" << ffdcLen;
         throw std::runtime_error(errMsg.str().c_str());
     }

     //In case of success, remove the response header content and send only the
     //data.Response header will be towards the end of the buffer.
     auto respLen = (lengthObtained - distanceToStatusHeader);
     iter = sbeDataBuf.begin();
     std::advance(iter,respLen);
     sbeDataBuf.erase(iter, sbeDataBuf.end());
 }

 }
 }
 }
	#include <array>
	#include <errno.h>
	#include <fcntl.h>
	#include <unistd.h>
	#include <poll.h>
	#include <endian.h>
	#include <sbe_chipOp_handler.hpp>
	#include <file.hpp>
	namespace openpower
	{
	namespace sbe
	{
	namespace internal
	{

	constexpr uint16_t MAGIC_CODE = 0xC0DE;
	constexpr auto SBE_OPERATION_SUCCESSFUL = 0;
	constexpr auto LENGTH_OF_DISTANCE_HEADER_IN_WORDS = 0x1;
	constexpr auto LENGTH_OF_RESP_HEADER_IN_WORDS = 0x2;
	constexpr auto DISTANCE_TO_RESP_CODE = 0x1;
	constexpr auto MAX_FFDC_LEN_IN_WORDS = 5120;
	constexpr auto WORD_SIZE = 4;
	constexpr auto MAGIC_CODE_BITS = 16;
	std::vector<sbe_word_t> writeToFifo(const char* devPath,
	const sbe_word_t* cmdBuffer,
	size_t cmdBufLen,
	size_t respBufLen)
	{
	ssize_t len = 0;
	std::vector<sbe_word_t> response;
	std::ostringstream errMsg;

	//Open the device and obtain the file descriptor associated with it.
	FileDescriptor fileFd(devPath, (O_RDWR \| O_NONBLOCK));

	//Wait for FIFO device and perform write operation
	struct pollfd poll_fd = {};
	poll_fd.fd = fileFd();
	poll_fd.events = POLLOUT \| POLLERR;

	int rc = 0;
	if ((rc = poll(&poll_fd, 1, -1)) < 0)
	{
	//TODO:use elog infrastructure
	errMsg << "Waiting for FIFO device:" << devPath << "to write failed"
	<< "rc=" << rc << "errno=" << errno;
	throw std::runtime_error(errMsg.str().c_str());
	}
	if (poll_fd.revents & POLLERR)
	{
	//TODO:use elog infrastructure
	errMsg << "POLLERR while waiting for writeable FIFO,errno:" << errno;
	throw std::runtime_error(errMsg.str().c_str());
	}
	auto bytesToWrite = (cmdBufLen * WORD_SIZE);
	//Perform the write operation
	len = write(fileFd(), cmdBuffer, bytesToWrite);
	if (len < 0)
	{
	//TODO:use elog infrastructure
	errMsg << "Failed to write to FIFO device:" << devPath << " Length "
	"returned= " << len << " errno=" << errno;
	throw std::runtime_error(errMsg.str().c_str());
	}
	//Wait for FIFO device and perform read operation
	poll_fd.fd = fileFd();
	poll_fd.events = POLLIN \| POLLERR;
	if ((rc = poll(&poll_fd, 1, -1) < 0))
	{
	//TODO:use elog infrastructure
	errMsg << "Waiting for FIFO device:" << devPath << "to read failed"
	<< " rc=" << rc << " and errno=" << errno;
	throw std::runtime_error(errMsg.str().c_str());
	}
	if (poll_fd.revents & POLLERR)
	{
	//TODO:use elog infrastructure
	errMsg << "POLLERR while waiting for readable FIFO,errno:" << errno;
	throw std::runtime_error(errMsg.str().c_str());
	}
	//Derive the total read length which should include the FFDC, which SBE
	//returns in case of failure.
	size_t totalReadLen = respBufLen + MAX_FFDC_LEN_IN_WORDS;
	//Create a temporary buffer
	std::vector<sbe_word_t> buffer(totalReadLen);

	ssize_t bytesToRead = (totalReadLen * WORD_SIZE);
	len = read(fileFd(), buffer.data(), bytesToRead);
	if (len < 0)
	{
	//TODO:use elog infrastructure
	errMsg << "Failed to read the FIFO device:" << devPath << "bytes read ="
	<< len << " errno=" << errno;
	throw std::runtime_error(errMsg.str().c_str());
	}

	//Extract the valid number of words read.
	for (auto i = 0; i < (len / WORD_SIZE); ++i)
	{
	response.push_back(be32toh(buffer[i]));
	}

	//Closing of the file descriptor will be handled when the FileDescriptor
	//object will go out of scope.
	return response;
	}

	void parseResponse(std::vector<sbe_word_t>& sbeDataBuf)
	{
	//Number of 32-bit words obtained from the SBE
	size_t lengthObtained = sbeDataBuf.size();

	//Fetch the SBE header and SBE chiop primary and secondary status
	//Last value in the buffer will have the offset for the SBE header
	size_t distanceToStatusHeader = sbeDataBuf[sbeDataBuf.size() - 1];

	if (lengthObtained < distanceToStatusHeader)
	{
	//TODO:use elog infrastructure
	std::ostringstream errMsg;
	errMsg << "Distance to SBE status header value " <<
	distanceToStatusHeader << " is greater then total length of "
	"response buffer " << lengthObtained;
	throw std::runtime_error(errMsg.str().c_str());
	}

	//Fetch the response header contents
	auto iter = sbeDataBuf.begin();
	std::advance(iter, (lengthObtained - distanceToStatusHeader));

	//First header word will have 2 bytes of MAGIC CODE followed by
	//Command class and command type
	//\| MAGIC BYTES:0xCODE \| COMMAND-CLASS \| COMMAND-TYPE\|
	sbe_word_t l_magicCode = (*iter >> MAGIC_CODE_BITS);

	//Fetch the primary and secondary response code
	std::advance(iter, DISTANCE_TO_RESP_CODE);
	auto l_priSecResp = *iter;

	//Validate the magic code obtained in the response
	if (l_magicCode != MAGIC_CODE)
	{
	//TODO:use elog infrastructure
	std::ostringstream errMsg;
	errMsg << "Invalid MAGIC keyword in the response header (" <<
	l_magicCode << "),expected keyword " << MAGIC_CODE;
	throw std::runtime_error(errMsg.str().c_str());
	}

	//Validate the Primary and Secondary response value
	if (l_priSecResp != SBE_OPERATION_SUCCESSFUL)
	{
	//Extract the SBE FFDC and throw it to the caller
	size_t ffdcLen = (distanceToStatusHeader -
	LENGTH_OF_RESP_HEADER_IN_WORDS -
	LENGTH_OF_DISTANCE_HEADER_IN_WORDS);
	if (ffdcLen)
	{
	std::vector<sbe_word_t> ffdcData(ffdcLen);
	//Fetch the offset of FFDC data
	auto ffdcOffset = (lengthObtained - distanceToStatusHeader) +
	LENGTH_OF_RESP_HEADER_IN_WORDS;
	std::copy_n((sbeDataBuf.begin() + ffdcOffset), ffdcLen,
	ffdcData.begin());
	}

	//TODO:use elog infrastructure to return the SBE and Hardware procedure
	//FFDC container back to the caller.
	std::ostringstream errMsg;
	errMsg << "Chip operation failed with SBE response code:" << l_priSecResp
	<< ".Length of FFDC data of obtained:" << ffdcLen;
	throw std::runtime_error(errMsg.str().c_str());
	}

	//In case of success, remove the response header content and send only the
	//data.Response header will be towards the end of the buffer.
	auto respLen = (lengthObtained - distanceToStatusHeader);
	iter = sbeDataBuf.begin();
	std::advance(iter,respLen);
	sbeDataBuf.erase(iter, sbeDataBuf.end());
	}

	}
	}
	}