#include "config.h" #include "occ_command.hpp" #include "elog-errors.hpp" #include #include #include #include #include #include #include #include #include #include // #define TRACE_PACKETS namespace open_power { namespace occ { using namespace phosphor::logging; // Trace block of data in hex void dump_hex(const std::vector& data, const unsigned int data_len) { unsigned int dump_length = data.size(); if ((data_len > 0) && (data_len < dump_length)) { dump_length = data_len; } std::string s; for (uint32_t i = 0; i < dump_length; i++) { if (i % 16 == 0) { s += fmt::format("{:04X}: ", i); } else if (i % 4 == 0) { s += " "; } s += fmt::format("{:02X}", data.at(i)); if ((i % 16 == 15) || (i == (dump_length - 1))) { log(s.c_str()); s.clear(); } } } OccCommand::OccCommand(uint8_t instance, const char* path) : occInstance(instance), path(path), devicePath(OCC_DEV_PATH + std::to_string((this->path.back() - '0') + 1)), activeStatusSignal( utils::getBus(), sdbusRule::propertiesChanged(path, "org.open_power.OCC.Status"), std::bind(std::mem_fn(&OccCommand::activeStatusEvent), this, std::placeholders::_1)) { log( fmt::format("OccCommand::OccCommand(path={}, devicePath={}", this->path, devicePath) .c_str()); } void OccCommand::openDevice() { using namespace sdbusplus::org::open_power::OCC::Device::Error; log( fmt::format("OccCommand::openDevice: calling open {}", devicePath) .c_str()); fd = open(devicePath.c_str(), O_RDWR | O_NONBLOCK); if (fd < 0) { const int openErrno = errno; log( fmt::format( "OccCommand::openDevice: open failed (errno={}, path={})", openErrno, devicePath) .c_str()); } else { log("OccCommand::openDevice: open success"); } return; } void OccCommand::closeDevice() { if (fd >= 0) { log("OccCommand::closeDevice: calling close()"); close(fd); fd = -1; } } CmdStatus OccCommand::send(const std::vector& command, std::vector& response) { using namespace sdbusplus::org::open_power::OCC::Device::Error; CmdStatus status = CmdStatus::FAILURE; response.clear(); log("OccCommand::send: calling openDevice()"); openDevice(); if (fd < 0) { // OCC is inactive; empty response return CmdStatus::COMM_FAILURE; } const uint8_t cmd_type = command[0]; #ifdef TRACE_PACKETS log( fmt::format("OCC{}: Sending 0x{:02X} command (length={}, {})", occInstance, cmd_type, command.size(), devicePath) .c_str()); dump_hex(command); #else log("OccCommand::send: calling write()"); #endif int retries = 1; // Allow a retry if a command fails to get valid response do { auto rc = write(fd, command.data(), command.size()); const int writeErrno = errno; if ((rc < 0) || (rc != (int)command.size())) { log( fmt::format( "OccCommand::send: write(OCC{}, command:0x{:02X}) failed with errno={} (retries={})", occInstance, cmd_type, writeErrno, retries) .c_str()); status = CmdStatus::COMM_FAILURE; // retry if available continue; } else { log("OccCommand::send: write succeeded"); } // Now read the response. This would be the content of occ-sram while (1) { uint8_t data{}; auto len = read(fd, &data, sizeof(data)); const int readErrno = errno; if (len > 0) { response.emplace_back(data); } else if (len < 0 && readErrno == EAGAIN) { // We may have data coming still. // This driver does not need a sleep for a retry. continue; } else if (len == 0) { log("OccCommand::send: read completed"); // We have read all that we can. status = CmdStatus::SUCCESS; break; } else { log( fmt::format( "OccCommand::send: read(OCC{}, command:0x{:02X}) failed with errno={} (rspSize={}, retries={})", occInstance, cmd_type, readErrno, response.size(), retries) .c_str()); status = CmdStatus::COMM_FAILURE; break; } } if (status != CmdStatus::SUCCESS) { // retry if available continue; } if (response.size() > 2) { #ifdef TRACE_PACKETS log( fmt::format( "OCC{}: Received 0x{:02X} response (length={} w/checksum)", occInstance, cmd_type, response.size()) .c_str()); dump_hex(response, 64); #endif // Validate checksum (last 2 bytes of response) const unsigned int csumIndex = response.size() - 2; const uint32_t rspChecksum = (response[csumIndex] << 8) + response[csumIndex + 1]; uint32_t calcChecksum = 0; for (unsigned int index = 0; index < csumIndex; ++index) { calcChecksum += response[index]; } while (calcChecksum > 0xFFFF) { calcChecksum = (calcChecksum & 0xFFFF) + (calcChecksum >> 16); } if (calcChecksum != rspChecksum) { log( fmt::format("OCC{}: Checksum Mismatch: response " "0x{:04X}, calculated 0x{:04X}", occInstance, rspChecksum, calcChecksum) .c_str()); dump_hex(response); status = CmdStatus::COMM_FAILURE; } else { // Validate response was for the specified command if (command[0] == response[1]) { // Valid response received // Strip off 2 byte checksum response.pop_back(); response.pop_back(); break; } else { log( fmt::format( "OccCommand::send: Response command mismatch " "(sent: " "0x{:02X}, rsp: 0x{:02X}, rsp seq#: 0x{:02X}", command[0], response[1], response[0]) .c_str()); dump_hex(response, 64); } } } else { log( fmt::format( "OccCommand::send: Invalid OCC{} response length: {}", occInstance, response.size()) .c_str()); status = CmdStatus::FAILURE; dump_hex(response); } if (retries > 0) { log("OccCommand::send: Command will be retried"); response.clear(); } } while (retries-- > 0); closeDevice(); return status; } // Called at OCC Status change signal void OccCommand::activeStatusEvent(sdbusplus::message_t& msg) { std::string statusInterface; std::map> msgData; msg.read(statusInterface, msgData); auto propertyMap = msgData.find("OccActive"); if (propertyMap != msgData.end()) { // Extract the OccActive property if (std::get(propertyMap->second)) { occActive = true; } else { occActive = false; this->closeDevice(); } } return; } } // namespace occ } // namespace open_power