// SPDX-License-Identifier: Apache-2.0 // Copyright (C) 2018 IBM Corp. #include "config.h" #include "hiomap.hpp" #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace sdbusplus; using namespace phosphor::host::command; static void register_openpower_hiomap_commands() __attribute__((constructor)); namespace openpower { namespace flash { constexpr auto BMC_EVENT_DAEMON_READY = 1 << 7; constexpr auto BMC_EVENT_FLASH_CTRL_LOST = 1 << 6; constexpr auto BMC_EVENT_WINDOW_RESET = 1 << 1; constexpr auto BMC_EVENT_PROTOCOL_RESET = 1 << 0; constexpr auto IPMI_CMD_HIOMAP_EVENT = 0x0f; constexpr auto HIOMAPD_SERVICE = "xyz.openbmc_project.Hiomapd"; constexpr auto HIOMAPD_OBJECT = "/xyz/openbmc_project/Hiomapd"; constexpr auto HIOMAPD_IFACE = "xyz.openbmc_project.Hiomapd.Protocol"; constexpr auto HIOMAPD_IFACE_V2 = "xyz.openbmc_project.Hiomapd.Protocol.V2"; constexpr auto DBUS_IFACE_PROPERTIES = "org.freedesktop.DBus.Properties"; struct hiomap { bus::bus* bus; /* Signals */ bus::match::match* properties; bus::match::match* window_reset; bus::match::match* bmc_reboot; /* Protocol state */ std::map event_lookup; uint8_t bmc_events; uint8_t seq; }; /* TODO: Replace get/put with packed structs and direct assignment */ template static inline T get(void* buf) { T t; memcpy(&t, buf, sizeof(t)); return t; } template static inline void put(void* buf, T&& t) { memcpy(buf, &t, sizeof(t)); } typedef ipmi_ret_t (*hiomap_command)(ipmi_request_t req, ipmi_response_t resp, ipmi_data_len_t data_len, ipmi_context_t context); struct errno_cc_entry { int err; int cc; }; static const errno_cc_entry errno_cc_map[] = { {0, IPMI_CC_OK}, {EBUSY, IPMI_CC_BUSY}, {ENOTSUP, IPMI_CC_INVALID}, {ETIMEDOUT, 0xc3}, /* FIXME: Replace when defined in ipmid-api.h */ {ENOSPC, 0xc4}, /* FIXME: Replace when defined in ipmid-api.h */ {EINVAL, IPMI_CC_PARM_OUT_OF_RANGE}, {ENODEV, IPMI_CC_SENSOR_INVALID}, {EPERM, IPMI_CC_INSUFFICIENT_PRIVILEGE}, {EACCES, IPMI_CC_INSUFFICIENT_PRIVILEGE}, {-1, IPMI_CC_UNSPECIFIED_ERROR}, }; static int hiomap_xlate_errno(int err) { const errno_cc_entry* entry = &errno_cc_map[0]; while (!(entry->err == err || entry->err == -1)) { entry++; } return entry->cc; } static void ipmi_hiomap_event_response(IpmiCmdData cmd, bool status) { using namespace phosphor::logging; if (!status) { log("Failed to deliver host command", entry("SEL_COMMAND=%x:%x", cmd.first, cmd.second)); } } static int hiomap_handle_property_update(struct hiomap* ctx, sdbusplus::message::message& msg) { std::map> msgData; std::string iface; msg.read(iface, msgData); for (auto const& x : msgData) { if (!ctx->event_lookup.count(x.first)) { /* Unsupported event? */ continue; } uint8_t mask = ctx->event_lookup[x.first]; auto value = sdbusplus::message::variant_ns::get(x.second); if (value) { ctx->bmc_events |= mask; } else { ctx->bmc_events &= ~mask; } } auto cmd = std::make_pair(IPMI_CMD_HIOMAP_EVENT, ctx->bmc_events); ipmid_send_cmd_to_host(std::make_tuple(cmd, ipmi_hiomap_event_response)); return 0; } static bus::match::match hiomap_match_properties(struct hiomap* ctx) { auto properties = bus::match::rules::propertiesChanged(HIOMAPD_OBJECT, HIOMAPD_IFACE_V2); bus::match::match match( *ctx->bus, properties, std::bind(hiomap_handle_property_update, ctx, std::placeholders::_1)); return match; } static int hiomap_handle_signal_v2(struct hiomap* ctx, const char* name) { ctx->bmc_events |= ctx->event_lookup[name]; auto cmd = std::make_pair(IPMI_CMD_HIOMAP_EVENT, ctx->bmc_events); ipmid_send_cmd_to_host(std::make_tuple(cmd, ipmi_hiomap_event_response)); return 0; } static bus::match::match hiomap_match_signal_v2(struct hiomap* ctx, const char* name) { using namespace bus::match; auto signals = rules::type::signal() + rules::path(HIOMAPD_OBJECT) + rules::interface(HIOMAPD_IFACE_V2) + rules::member(name); bus::match::match match(*ctx->bus, signals, std::bind(hiomap_handle_signal_v2, ctx, name)); return match; } static ipmi_ret_t hiomap_reset(ipmi_request_t request, ipmi_response_t response, ipmi_data_len_t data_len, ipmi_context_t context) { struct hiomap* ctx = static_cast(context); auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, HIOMAPD_IFACE, "Reset"); try { ctx->bus->call(m); *data_len = 0; } catch (const exception::SdBusError& e) { return hiomap_xlate_errno(e.get_errno()); } return IPMI_CC_OK; } static ipmi_ret_t hiomap_get_info(ipmi_request_t request, ipmi_response_t response, ipmi_data_len_t data_len, ipmi_context_t context) { struct hiomap* ctx = static_cast(context); if (*data_len < 1) { return IPMI_CC_REQ_DATA_LEN_INVALID; } uint8_t* reqdata = (uint8_t*)request; auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, HIOMAPD_IFACE, "GetInfo"); m.append(reqdata[0]); try { auto reply = ctx->bus->call(m); uint8_t version; uint8_t blockSizeShift; uint16_t timeout; reply.read(version, blockSizeShift, timeout); uint8_t* respdata = (uint8_t*)response; /* FIXME: Assumes v2! */ put(&respdata[0], version); put(&respdata[1], blockSizeShift); put(&respdata[2], htole16(timeout)); *data_len = 4; } catch (const exception::SdBusError& e) { return hiomap_xlate_errno(e.get_errno()); } return IPMI_CC_OK; } static ipmi_ret_t hiomap_get_flash_info(ipmi_request_t request, ipmi_response_t response, ipmi_data_len_t data_len, ipmi_context_t context) { struct hiomap* ctx = static_cast(context); auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, HIOMAPD_IFACE_V2, "GetFlashInfo"); try { auto reply = ctx->bus->call(m); uint16_t flashSize, eraseSize; reply.read(flashSize, eraseSize); uint8_t* respdata = (uint8_t*)response; put(&respdata[0], htole16(flashSize)); put(&respdata[2], htole16(eraseSize)); *data_len = 4; } catch (const exception::SdBusError& e) { return hiomap_xlate_errno(e.get_errno()); } return IPMI_CC_OK; } static ipmi_ret_t hiomap_create_window(struct hiomap* ctx, bool ro, ipmi_request_t request, ipmi_response_t response, ipmi_data_len_t data_len) { if (*data_len < 4) { return IPMI_CC_REQ_DATA_LEN_INVALID; } uint8_t* reqdata = (uint8_t*)request; auto windowType = ro ? "CreateReadWindow" : "CreateWriteWindow"; auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, HIOMAPD_IFACE_V2, windowType); m.append(le16toh(get(&reqdata[0]))); m.append(le16toh(get(&reqdata[2]))); try { auto reply = ctx->bus->call(m); uint16_t lpcAddress, size, offset; reply.read(lpcAddress, size, offset); uint8_t* respdata = (uint8_t*)response; /* FIXME: Assumes v2! */ put(&respdata[0], htole16(lpcAddress)); put(&respdata[2], htole16(size)); put(&respdata[4], htole16(offset)); *data_len = 6; } catch (const exception::SdBusError& e) { return hiomap_xlate_errno(e.get_errno()); } return IPMI_CC_OK; } static ipmi_ret_t hiomap_create_read_window(ipmi_request_t request, ipmi_response_t response, ipmi_data_len_t data_len, ipmi_context_t context) { struct hiomap* ctx = static_cast(context); return hiomap_create_window(ctx, true, request, response, data_len); } static ipmi_ret_t hiomap_create_write_window(ipmi_request_t request, ipmi_response_t response, ipmi_data_len_t data_len, ipmi_context_t context) { struct hiomap* ctx = static_cast(context); return hiomap_create_window(ctx, false, request, response, data_len); } static ipmi_ret_t hiomap_close_window(ipmi_request_t request, ipmi_response_t response, ipmi_data_len_t data_len, ipmi_context_t context) { struct hiomap* ctx = static_cast(context); if (*data_len < 1) { return IPMI_CC_REQ_DATA_LEN_INVALID; } uint8_t* reqdata = (uint8_t*)request; auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, HIOMAPD_IFACE_V2, "CloseWindow"); m.append(reqdata[0]); try { auto reply = ctx->bus->call(m); *data_len = 0; } catch (const exception::SdBusError& e) { return hiomap_xlate_errno(e.get_errno()); } return IPMI_CC_OK; } static ipmi_ret_t hiomap_mark_dirty(ipmi_request_t request, ipmi_response_t response, ipmi_data_len_t data_len, ipmi_context_t context) { struct hiomap* ctx = static_cast(context); if (*data_len < 4) { return IPMI_CC_REQ_DATA_LEN_INVALID; } uint8_t* reqdata = (uint8_t*)request; auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, HIOMAPD_IFACE_V2, "MarkDirty"); /* FIXME: Assumes v2 */ m.append(le16toh(get(&reqdata[0]))); /* offset */ m.append(le16toh(get(&reqdata[2]))); /* size */ try { auto reply = ctx->bus->call(m); *data_len = 0; } catch (const exception::SdBusError& e) { return hiomap_xlate_errno(e.get_errno()); } return IPMI_CC_OK; } static ipmi_ret_t hiomap_flush(ipmi_request_t request, ipmi_response_t response, ipmi_data_len_t data_len, ipmi_context_t context) { struct hiomap* ctx = static_cast(context); auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, HIOMAPD_IFACE_V2, "Flush"); try { /* FIXME: No argument call assumes v2 */ auto reply = ctx->bus->call(m); *data_len = 0; } catch (const exception::SdBusError& e) { return hiomap_xlate_errno(e.get_errno()); } return IPMI_CC_OK; } static ipmi_ret_t hiomap_ack(ipmi_request_t request, ipmi_response_t response, ipmi_data_len_t data_len, ipmi_context_t context) { struct hiomap* ctx = static_cast(context); if (*data_len < 1) { return IPMI_CC_REQ_DATA_LEN_INVALID; } uint8_t* reqdata = (uint8_t*)request; auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, HIOMAPD_IFACE_V2, "Ack"); auto acked = reqdata[0]; m.append(acked); try { auto reply = ctx->bus->call(m); /* Update our cache: Necessary because the signals do not carry a value */ ctx->bmc_events &= ~acked; *data_len = 0; } catch (const exception::SdBusError& e) { return hiomap_xlate_errno(e.get_errno()); } return IPMI_CC_OK; } static ipmi_ret_t hiomap_erase(ipmi_request_t request, ipmi_response_t response, ipmi_data_len_t data_len, ipmi_context_t context) { struct hiomap* ctx = static_cast(context); if (*data_len < 4) { return IPMI_CC_REQ_DATA_LEN_INVALID; } uint8_t* reqdata = (uint8_t*)request; auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, HIOMAPD_IFACE_V2, "Erase"); /* FIXME: Assumes v2 */ m.append(le16toh(get(&reqdata[0]))); /* offset */ m.append(le16toh(get(&reqdata[2]))); /* size */ try { auto reply = ctx->bus->call(m); *data_len = 0; } catch (const exception::SdBusError& e) { return hiomap_xlate_errno(e.get_errno()); } return IPMI_CC_OK; } #define HIOMAP_C_RESET 1 #define HIOMAP_C_GET_INFO 2 #define HIOMAP_C_GET_FLASH_INFO 3 #define HIOMAP_C_CREATE_READ_WINDOW 4 #define HIOMAP_C_CLOSE_WINDOW 5 #define HIOMAP_C_CREATE_WRITE_WINDOW 6 #define HIOMAP_C_MARK_DIRTY 7 #define HIOMAP_C_FLUSH 8 #define HIOMAP_C_ACK 9 #define HIOMAP_C_ERASE 10 static const hiomap_command hiomap_commands[] = { [0] = NULL, /* Invalid command ID */ [HIOMAP_C_RESET] = hiomap_reset, [HIOMAP_C_GET_INFO] = hiomap_get_info, [HIOMAP_C_GET_FLASH_INFO] = hiomap_get_flash_info, [HIOMAP_C_CREATE_READ_WINDOW] = hiomap_create_read_window, [HIOMAP_C_CLOSE_WINDOW] = hiomap_close_window, [HIOMAP_C_CREATE_WRITE_WINDOW] = hiomap_create_write_window, [HIOMAP_C_MARK_DIRTY] = hiomap_mark_dirty, [HIOMAP_C_FLUSH] = hiomap_flush, [HIOMAP_C_ACK] = hiomap_ack, [HIOMAP_C_ERASE] = hiomap_erase, }; /* FIXME: Define this in the "right" place, wherever that is */ /* FIXME: Double evaluation */ #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) static ipmi_ret_t hiomap_dispatch(ipmi_netfn_t netfn, ipmi_cmd_t cmd, ipmi_request_t request, ipmi_response_t response, ipmi_data_len_t data_len, ipmi_context_t context) { struct hiomap* ctx = static_cast(context); if (*data_len < 2) { *data_len = 0; return IPMI_CC_REQ_DATA_LEN_INVALID; } uint8_t* ipmi_req = (uint8_t*)request; uint8_t* ipmi_resp = (uint8_t*)response; uint8_t hiomap_cmd = ipmi_req[0]; if (hiomap_cmd == 0 || hiomap_cmd > ARRAY_SIZE(hiomap_commands) - 1) { *data_len = 0; return IPMI_CC_PARM_OUT_OF_RANGE; } bool is_unversioned = (hiomap_cmd == HIOMAP_C_RESET || hiomap_cmd == HIOMAP_C_GET_INFO || hiomap_cmd == HIOMAP_C_ACK); if (!is_unversioned && ctx->seq == ipmi_req[1]) { *data_len = 0; return IPMI_CC_INVALID_FIELD_REQUEST; } ctx->seq = ipmi_req[1]; uint8_t* flash_req = ipmi_req + 2; size_t flash_len = *data_len - 2; uint8_t* flash_resp = ipmi_resp + 2; ipmi_ret_t cc = hiomap_commands[hiomap_cmd](flash_req, flash_resp, &flash_len, context); if (cc != IPMI_CC_OK) { *data_len = 0; return cc; } /* Populate the response command and sequence */ ipmi_resp[0] = hiomap_cmd; ipmi_resp[1] = ctx->seq; *data_len = flash_len + 2; return cc; } } // namespace flash } // namespace openpower static void register_openpower_hiomap_commands() { using namespace openpower::flash; /* FIXME: Clean this up? Can we unregister? */ struct hiomap* ctx = new hiomap(); /* Initialise mapping from signal and property names to status bit */ ctx->event_lookup["DaemonReady"] = BMC_EVENT_DAEMON_READY; ctx->event_lookup["FlashControlLost"] = BMC_EVENT_FLASH_CTRL_LOST; ctx->event_lookup["WindowReset"] = BMC_EVENT_WINDOW_RESET; ctx->event_lookup["ProtocolReset"] = BMC_EVENT_PROTOCOL_RESET; ctx->bus = new bus::bus(ipmid_get_sd_bus_connection()); /* Initialise signal handling */ /* * Can't use temporaries here because that causes SEGFAULTs due to slot * destruction (!?), so enjoy the weird wrapping. */ ctx->properties = new bus::match::match(std::move(hiomap_match_properties(ctx))); ctx->bmc_reboot = new bus::match::match( std::move(hiomap_match_signal_v2(ctx, "ProtocolReset"))); ctx->window_reset = new bus::match::match( std::move(hiomap_match_signal_v2(ctx, "WindowReset"))); ipmi_register_callback(NETFUN_IBM_OEM, IPMI_CMD_HIOMAP, ctx, openpower::flash::hiomap_dispatch, SYSTEM_INTERFACE); }