12c07f6f0SAndrew Jeffery // SPDX-License-Identifier: Apache-2.0 22c07f6f0SAndrew Jeffery // Copyright (C) 2018 IBM Corp. 32c07f6f0SAndrew Jeffery 42c07f6f0SAndrew Jeffery #include "config.h" 52c07f6f0SAndrew Jeffery 62c07f6f0SAndrew Jeffery #include "hiomap.hpp" 72c07f6f0SAndrew Jeffery 82c07f6f0SAndrew Jeffery #include <endian.h> 92c07f6f0SAndrew Jeffery #include <host-ipmid/ipmid-api.h> 10619207dcSAndrew Jeffery #include <signal.h> 11619207dcSAndrew Jeffery #include <string.h> 12619207dcSAndrew Jeffery #include <systemd/sd-bus.h> 13619207dcSAndrew Jeffery #include <systemd/sd-event.h> 142c07f6f0SAndrew Jeffery 15619207dcSAndrew Jeffery #include <cassert> 16ee70196bSPatrick Venture #include <cstring> 172c07f6f0SAndrew Jeffery #include <fstream> 180a3358e7SAndrew Jeffery #include <functional> 190a3358e7SAndrew Jeffery #include <host-ipmid/ipmid-host-cmd-utils.hpp> 200a3358e7SAndrew Jeffery #include <host-ipmid/ipmid-host-cmd.hpp> 210a3358e7SAndrew Jeffery #include <iostream> 22ee3064baSVernon Mauery #include <ipmid/api.hpp> 23ee70196bSPatrick Venture #include <map> 240a3358e7SAndrew Jeffery #include <phosphor-logging/log.hpp> 252c07f6f0SAndrew Jeffery #include <sdbusplus/bus.hpp> 260a3358e7SAndrew Jeffery #include <sdbusplus/bus/match.hpp> 272c07f6f0SAndrew Jeffery #include <sdbusplus/exception.hpp> 28ee70196bSPatrick Venture #include <string> 29ee70196bSPatrick Venture #include <tuple> 30ee70196bSPatrick Venture #include <utility> 312c07f6f0SAndrew Jeffery 32619207dcSAndrew Jeffery /* 33619207dcSAndrew Jeffery 34619207dcSAndrew Jeffery Design and integration notes 35619207dcSAndrew Jeffery ============================ 36619207dcSAndrew Jeffery 37619207dcSAndrew Jeffery The primary motivation of the Host I/O Mapping protocol (HIOMAP) is to mediate 38619207dcSAndrew Jeffery host access to a BMC-controlled flash chip housing the host's boot firmware. 39619207dcSAndrew Jeffery 40619207dcSAndrew Jeffery openpower-host-ipmi-flash facilitates the system design of transporting the 41619207dcSAndrew Jeffery HIOMAP protocol[1] over IPMI. This is somewhat abusive of IPMI, basically 42619207dcSAndrew Jeffery treating the BT interface as a mailbox with an interrupt each way between the 43619207dcSAndrew Jeffery BMC and the host. 44619207dcSAndrew Jeffery 45619207dcSAndrew Jeffery [1] https://github.com/openbmc/mboxbridge/blob/master/Documentation/protocol.md 46619207dcSAndrew Jeffery 47619207dcSAndrew Jeffery Using IPMI in this way has a number of challenges, a lot of them on the host 48619207dcSAndrew Jeffery side where we need to bring up the LPC and BT interfaces to enable IPMI before 49619207dcSAndrew Jeffery accessing the flash, and before any interrupts are enabled. There are also 50619207dcSAndrew Jeffery challenges on the BMC side with the design of the current implementation. We 51619207dcSAndrew Jeffery will cover those here. 52619207dcSAndrew Jeffery 53619207dcSAndrew Jeffery BMC-side System Design and Integration Issues 54619207dcSAndrew Jeffery --------------------------------------------- 55619207dcSAndrew Jeffery 56619207dcSAndrew Jeffery The current design is that we have the HIOMAP daemon, mboxd (to be renamed), 57619207dcSAndrew Jeffery exposing a set of DBus interfaces. Whilst the spec defines the IPMI transport 58619207dcSAndrew Jeffery message packing, mboxd knows nothing of IPMI itself, instead relying on the 59619207dcSAndrew Jeffery DBus interface to receive messages from ipmid. ipmid in-turn knows nothing of 60619207dcSAndrew Jeffery the interfaces communicating with it, also relying on DBus to receive messages 61619207dcSAndrew Jeffery from interface-specific daemons, e.g. btbridged[2]. 62619207dcSAndrew Jeffery 63619207dcSAndrew Jeffery [2] https://github.com/openbmc/btbridge 64619207dcSAndrew Jeffery 65619207dcSAndrew Jeffery For this design to function correctly we must ensure that the daemons are 66619207dcSAndrew Jeffery started and shut down in a reasonable order, however defining that order is 67619207dcSAndrew Jeffery somewhat tricky: 68619207dcSAndrew Jeffery 69619207dcSAndrew Jeffery 1. systemd uses Wants=/Before=/After= relationships in units to define both 70619207dcSAndrew Jeffery start-up *and* shutdown order, in stack push / pop order respectively. 71619207dcSAndrew Jeffery 2. Clearly ipmid depends on btbridged to receive messages sent by signals and 72619207dcSAndrew Jeffery replied to by method calls, so it needs a Wants=/After= relationship on 73619207dcSAndrew Jeffery btbridged 74619207dcSAndrew Jeffery 3. mboxd depends on ipmid to receive messages sent by method call, and issues a 75619207dcSAndrew Jeffery PropertiesChanged signal to notify of state changes. 76619207dcSAndrew Jeffery 77619207dcSAndrew Jeffery Point 3. suggests mboxd should have a Wants=/Before= relationship with ipmid to 78619207dcSAndrew Jeffery ensure ipmid can call into mboxd as messages arrive. However, this causes some 79619207dcSAndrew Jeffery grief with shutdown of the BMC, as mboxd needs to issue a state-change 80619207dcSAndrew Jeffery notification when it is shut down to inform the host that will not repsond to 81619207dcSAndrew Jeffery future requests and that the protocol state has been reset. If mboxd has a 82619207dcSAndrew Jeffery Wants=/Before= relationship with ipmid this message will never propagate to the 83619207dcSAndrew Jeffery host, as ipmid will be shut by systemd before mboxd. 84619207dcSAndrew Jeffery 85619207dcSAndrew Jeffery The above leads to mboxd having a Wants=/After= relationship with ipmid. This 86619207dcSAndrew Jeffery ensures that if mboxd is restarted on its own the correct state changes will be 87619207dcSAndrew Jeffery propagated to the host. The case where ipmid attempts to call into mboxd's DBus 88619207dcSAndrew Jeffery interface before mboxd is ready is mitigated by the ready bit in the protocol's 89619207dcSAndrew Jeffery BMC status, which will not yet be set, preventing a conforming host from 90619207dcSAndrew Jeffery attempting to contact mboxd. 91619207dcSAndrew Jeffery 92619207dcSAndrew Jeffery While this ordering prevents mboxd from being terminated before ipmid, there is 93619207dcSAndrew Jeffery no control over the *scheduling* of processes to ensure the PropertiesChanged 94619207dcSAndrew Jeffery signal emitted by mboxd before mboxd is terminated is seen by ipmid before 95619207dcSAndrew Jeffery *ipmid* is also terminated. This leads to our first implementation wart: 96619207dcSAndrew Jeffery 97619207dcSAndrew Jeffery On the basis that mboxd has a Wants=/After= relationship with ipmid, 98619207dcSAndrew Jeffery openpower-host-ipmi-flash will emit an HIOMAP BMC status event to the host 99619207dcSAndrew Jeffery with the value BMC_EVENT_PROTOCOL_RESET upon receiving SIGTERM iff the BMC 100619207dcSAndrew Jeffery state is not already set to BMC_EVENT_PROTOCOL_RESET. 101619207dcSAndrew Jeffery 102619207dcSAndrew Jeffery If ipmid has received SIGTERM the assumption is that it is systemd that is 103619207dcSAndrew Jeffery sending it, and that the Wants=/After= relationship requires that mboxd has 104619207dcSAndrew Jeffery been terminated before ipmid receives SIGTERM. By ensuring 105619207dcSAndrew Jeffery openpower-host-ipmi-flash emits the BMC event state we close the race where the 106619207dcSAndrew Jeffery host is not informed of the termination of mboxd due to scheduling ipmid (to 107619207dcSAndrew Jeffery deliver SIGTERM) prior to scheduling dbus-daemon, where the PropertiesChanged 108619207dcSAndrew Jeffery event would be delivered from mboxd to ipmid. 109619207dcSAndrew Jeffery 110619207dcSAndrew Jeffery Observations on the IPMI Specification and Design Details of ipmid 111619207dcSAndrew Jeffery ------------------------------------------------------------------ 112619207dcSAndrew Jeffery 113619207dcSAndrew Jeffery In addition to the system-level design problems with delivering 114619207dcSAndrew Jeffery PropertiesChanged signals during shutdown, IPMI specification and ipmid design 115619207dcSAndrew Jeffery issues exist that make it tedious to ensure that events will be correctly 116619207dcSAndrew Jeffery delivered to the host. 117619207dcSAndrew Jeffery 118619207dcSAndrew Jeffery The first necessary observation is that the mechanism for delivering BMC state 119619207dcSAndrew Jeffery change events from mboxd to the host over IPMI uses the SMS ATN bit to indicate 120619207dcSAndrew Jeffery a message is ready for delivery from the BMC to the host system. Retrieving the 121619207dcSAndrew Jeffery BMC state data involves the host recognising that the SMS ATN bit is set, 122619207dcSAndrew Jeffery performing Get Message Flags transaction with the BMC followed by a subsequent 123619207dcSAndrew Jeffery Get Message transaction. Thus, delivery of the HIOMAP protocol's BMC status is 124619207dcSAndrew Jeffery not an atomic event. 125619207dcSAndrew Jeffery 126619207dcSAndrew Jeffery The second necessary observation is that the kernel delivers signals 127619207dcSAndrew Jeffery asynchronously. This couples badly with IPMI's event delivery not being atomic: 128619207dcSAndrew Jeffery ipmid can win the race against SIGTERM to receive the PropertiesChanged event 129619207dcSAndrew Jeffery from mboxd, but lose the race to complete delivery to the host. 130619207dcSAndrew Jeffery 131619207dcSAndrew Jeffery On this basis, we need to block the delivery of SIGTERM to ipmid until ipmid 132619207dcSAndrew Jeffery has completed the set of `SMS ATN`/`Get Message Flags`/`Get Message` 133619207dcSAndrew Jeffery transactions with the host 134619207dcSAndrew Jeffery 135619207dcSAndrew Jeffery One approach to this would be to configure a custom SIGTERM handler that sets 136619207dcSAndrew Jeffery some global application state to indicate that SIGTERM has been delivered. A 137619207dcSAndrew Jeffery better approach that avoids the need for global application state is to simply 138619207dcSAndrew Jeffery block the signal until we are ready to handle it, which we can do via 139619207dcSAndrew Jeffery sigprocmask(2). 140619207dcSAndrew Jeffery 141619207dcSAndrew Jeffery The existing design of ipmid makes it feasible to block and unblock 142619207dcSAndrew Jeffery asynchronous SIGTERM as we require. ipmid_send_cmd_to_host() takes a CallBack 143619207dcSAndrew Jeffery function as an argument, which is invoked by 144619207dcSAndrew Jeffery phosphor::host::command::Manager::getNextCommand(). The documentation for 145619207dcSAndrew Jeffery phosphor::host::command::Manager::getNextCommand() says: 146619207dcSAndrew Jeffery 147619207dcSAndrew Jeffery @brief Extracts the next entry in the queue and returns 148619207dcSAndrew Jeffery Command and data part of it. 149619207dcSAndrew Jeffery 150619207dcSAndrew Jeffery @detail Also calls into the registered handlers so that they can now 151619207dcSAndrew Jeffery send the CommandComplete signal since the interface contract 152619207dcSAndrew Jeffery is that we emit this signal once the message has been 153619207dcSAndrew Jeffery passed to the host (which is required when calling this) 154619207dcSAndrew Jeffery 155619207dcSAndrew Jeffery Also, if the queue has more commands, then it will alert the 156619207dcSAndrew Jeffery host 157619207dcSAndrew Jeffery 158619207dcSAndrew Jeffery However, its description is not entirely accurate. The callback function is 159619207dcSAndrew Jeffery invoked when ipmid *dequeues* the data to send to the host: Delivery of the 160619207dcSAndrew Jeffery data to the host occurs at some *after* the callback has been invoked. 161619207dcSAndrew Jeffery 162619207dcSAndrew Jeffery Invoking the callback before completion of delivery of the data to the host 163619207dcSAndrew Jeffery nullifies the approach of unblocking asynchronous SIGTERM in the callback 164619207dcSAndrew Jeffery associated with sending the HIOMAP BMC state event to the host, as the BMC 165619207dcSAndrew Jeffery kernel can asynchronously terminate the process between the callback being 166619207dcSAndrew Jeffery invoked and the host receiving the BMC state event data. 167619207dcSAndrew Jeffery 168619207dcSAndrew Jeffery Overcoming this issue hinges on a significant implementation detail of ipmid: 169619207dcSAndrew Jeffery 170619207dcSAndrew Jeffery ipmid uses an sd_event loop in the main function to pump DBus events. 171619207dcSAndrew Jeffery 172619207dcSAndrew Jeffery This leads to a third necessary observation: 173619207dcSAndrew Jeffery 174619207dcSAndrew Jeffery sd_event can be used to process UNIX signals as well as other events by way 175619207dcSAndrew Jeffery of Linux's signalfd(2) interface. 176619207dcSAndrew Jeffery 177619207dcSAndrew Jeffery The fact that sd_event is used to pump DBus events means that ipmid can remain 178619207dcSAndrew Jeffery a single-threaded process. By remaining single-threaded we know that events 179619207dcSAndrew Jeffery processing is sequencial and no two events can be processed simultaneously. A 180619207dcSAndrew Jeffery corollary of this is that DBus events and UNIX signals are serialised with 181619207dcSAndrew Jeffery respect to eachother. 182619207dcSAndrew Jeffery 183619207dcSAndrew Jeffery The fourth necessary observation is that we do not need to pump sd_event in 184619207dcSAndrew Jeffery order to complete DBus method calls; sd_bus will handle the pumping independent 185619207dcSAndrew Jeffery of the main loop in order to complete the method invocation. 186619207dcSAndrew Jeffery 187619207dcSAndrew Jeffery Implementing Reliable HIOMAP BMC Status Event Delivery 188619207dcSAndrew Jeffery ------------------------------------------------------ 189619207dcSAndrew Jeffery 190619207dcSAndrew Jeffery We achieve reliable delivery of HIOMAP BMC status events in the following way: 191619207dcSAndrew Jeffery 192619207dcSAndrew Jeffery 1. During plugin initialisation, mask SIGTERM using sigprocmask(2) 193619207dcSAndrew Jeffery 2. Subsequent to masking SIGTERM, register 194619207dcSAndrew Jeffery openpower::flash::hiomap_protocol_reset() as the SIGTERM handler using 195619207dcSAndrew Jeffery sd_event_add_signal() to hook a signalfd(2) into sd_event 196619207dcSAndrew Jeffery 3. openpower::flash::hiomap_protocol_reset() implements the logic to send the 197619207dcSAndrew Jeffery BMC_EVENT_PROTOCOL_RESET state to the host if necessary, otherwise terminate 198619207dcSAndrew Jeffery the sd_event loop. 199619207dcSAndrew Jeffery 4. If it is necessary to send BMC_EVENT_PROTOCOL_RESET to the host in 3, assign 200619207dcSAndrew Jeffery a callback handler that terminates the sd_event loop, which is only 201619207dcSAndrew Jeffery processed after the current iteration is complete. 202619207dcSAndrew Jeffery 203619207dcSAndrew Jeffery This process and its use of signalfd integration in the sd_event loop 204619207dcSAndrew Jeffery eliminates the following three races: 205619207dcSAndrew Jeffery 206619207dcSAndrew Jeffery 1. The scheduler race between mboxd, dbus-daemon and ipmid, by having 207619207dcSAndrew Jeffery openpower-host-ipmi-flash conditionally deliver the protocol reset event if 208619207dcSAndrew Jeffery no such message has been received from mboxd 209619207dcSAndrew Jeffery 2. The race between delivering the BMC status event to the host and ipmid 210619207dcSAndrew Jeffery receiving asynchronous SIGTERM after receiving the PropertiesChanged event 211619207dcSAndrew Jeffery from mboxd 212619207dcSAndrew Jeffery 3. The race to deliver the BMC status data to the host after unblocking 213619207dcSAndrew Jeffery asynchronous SIGTERM in the host command callback and before receiving 214619207dcSAndrew Jeffery asynchronous SIGTERM. 215619207dcSAndrew Jeffery 216619207dcSAndrew Jeffery Ultimately, ipmid could benefit from a redesign that fires the callback *after* 217619207dcSAndrew Jeffery delivering the associated data to the host, but brief inspection determined 218619207dcSAndrew Jeffery that this involved a non-trivial amount of effort. 219619207dcSAndrew Jeffery 220619207dcSAndrew Jeffery */ 221619207dcSAndrew Jeffery 2222c07f6f0SAndrew Jeffery using namespace sdbusplus; 2230a3358e7SAndrew Jeffery using namespace phosphor::host::command; 2242c07f6f0SAndrew Jeffery 2252c07f6f0SAndrew Jeffery static void register_openpower_hiomap_commands() __attribute__((constructor)); 2262c07f6f0SAndrew Jeffery 2272c07f6f0SAndrew Jeffery namespace openpower 2282c07f6f0SAndrew Jeffery { 2292c07f6f0SAndrew Jeffery namespace flash 2302c07f6f0SAndrew Jeffery { 2310a3358e7SAndrew Jeffery constexpr auto BMC_EVENT_DAEMON_READY = 1 << 7; 2320a3358e7SAndrew Jeffery constexpr auto BMC_EVENT_FLASH_CTRL_LOST = 1 << 6; 2330a3358e7SAndrew Jeffery constexpr auto BMC_EVENT_WINDOW_RESET = 1 << 1; 2340a3358e7SAndrew Jeffery constexpr auto BMC_EVENT_PROTOCOL_RESET = 1 << 0; 2350a3358e7SAndrew Jeffery 2360a3358e7SAndrew Jeffery constexpr auto IPMI_CMD_HIOMAP_EVENT = 0x0f; 2370a3358e7SAndrew Jeffery 2380a3358e7SAndrew Jeffery constexpr auto HIOMAPD_SERVICE = "xyz.openbmc_project.Hiomapd"; 2390a3358e7SAndrew Jeffery constexpr auto HIOMAPD_OBJECT = "/xyz/openbmc_project/Hiomapd"; 2400a3358e7SAndrew Jeffery constexpr auto HIOMAPD_IFACE = "xyz.openbmc_project.Hiomapd.Protocol"; 2410a3358e7SAndrew Jeffery constexpr auto HIOMAPD_IFACE_V2 = "xyz.openbmc_project.Hiomapd.Protocol.V2"; 2420a3358e7SAndrew Jeffery 2430a3358e7SAndrew Jeffery constexpr auto DBUS_IFACE_PROPERTIES = "org.freedesktop.DBus.Properties"; 2440a3358e7SAndrew Jeffery 245619207dcSAndrew Jeffery /* XXX: ipmid is currently single-threaded, pumping dbus events in sequence 246619207dcSAndrew Jeffery * via the main event loop. Thus the code is not forced to be re-entrant. We 247619207dcSAndrew Jeffery * also know that the callback and DBus event handling will not be running 248619207dcSAndrew Jeffery * concurrently. 249619207dcSAndrew Jeffery * 250619207dcSAndrew Jeffery * ipmid_send_cmd_to_host() takes a callback that doesn't define a context 251619207dcSAndrew Jeffery * pointer, so instead use a global. active_event_updates gates manipulation of 252619207dcSAndrew Jeffery * process state, so its definition as a global at least aligns with its use. 253619207dcSAndrew Jeffery */ 254619207dcSAndrew Jeffery static int active_event_updates; 255619207dcSAndrew Jeffery 2560a3358e7SAndrew Jeffery struct hiomap 2570a3358e7SAndrew Jeffery { 2580a3358e7SAndrew Jeffery bus::bus* bus; 2590a3358e7SAndrew Jeffery 2600a3358e7SAndrew Jeffery /* Signals */ 2610a3358e7SAndrew Jeffery bus::match::match* properties; 2620a3358e7SAndrew Jeffery 2630a3358e7SAndrew Jeffery /* Protocol state */ 2640a3358e7SAndrew Jeffery std::map<std::string, int> event_lookup; 2650a3358e7SAndrew Jeffery uint8_t bmc_events; 26604d75136SAndrew Jeffery uint8_t seq; 2670a3358e7SAndrew Jeffery }; 2682c07f6f0SAndrew Jeffery 269ee3064baSVernon Mauery SignalResponse sigtermResponse = SignalResponse::continueExecution; 270ee3064baSVernon Mauery 2712c07f6f0SAndrew Jeffery /* TODO: Replace get/put with packed structs and direct assignment */ 2725b355068SPatrick Venture template <typename T> 2735b355068SPatrick Venture static inline T get(void* buf) 2742c07f6f0SAndrew Jeffery { 2752c07f6f0SAndrew Jeffery T t; 276ee70196bSPatrick Venture std::memcpy(&t, buf, sizeof(t)); 2772c07f6f0SAndrew Jeffery return t; 2782c07f6f0SAndrew Jeffery } 2792c07f6f0SAndrew Jeffery 2805b355068SPatrick Venture template <typename T> 2815b355068SPatrick Venture static inline void put(void* buf, T&& t) 2822c07f6f0SAndrew Jeffery { 283ee70196bSPatrick Venture std::memcpy(buf, &t, sizeof(t)); 2842c07f6f0SAndrew Jeffery } 2852c07f6f0SAndrew Jeffery 2862c07f6f0SAndrew Jeffery typedef ipmi_ret_t (*hiomap_command)(ipmi_request_t req, ipmi_response_t resp, 2872c07f6f0SAndrew Jeffery ipmi_data_len_t data_len, 2882c07f6f0SAndrew Jeffery ipmi_context_t context); 2892c07f6f0SAndrew Jeffery 2902c07f6f0SAndrew Jeffery struct errno_cc_entry 2912c07f6f0SAndrew Jeffery { 2922c07f6f0SAndrew Jeffery int err; 2932c07f6f0SAndrew Jeffery int cc; 2942c07f6f0SAndrew Jeffery }; 2952c07f6f0SAndrew Jeffery 2962c07f6f0SAndrew Jeffery static const errno_cc_entry errno_cc_map[] = { 2972c07f6f0SAndrew Jeffery {0, IPMI_CC_OK}, 2982c07f6f0SAndrew Jeffery {EBUSY, IPMI_CC_BUSY}, 2992c07f6f0SAndrew Jeffery {ENOTSUP, IPMI_CC_INVALID}, 3002c07f6f0SAndrew Jeffery {ETIMEDOUT, 0xc3}, /* FIXME: Replace when defined in ipmid-api.h */ 3012c07f6f0SAndrew Jeffery {ENOSPC, 0xc4}, /* FIXME: Replace when defined in ipmid-api.h */ 3022c07f6f0SAndrew Jeffery {EINVAL, IPMI_CC_PARM_OUT_OF_RANGE}, 3032c07f6f0SAndrew Jeffery {ENODEV, IPMI_CC_SENSOR_INVALID}, 3042c07f6f0SAndrew Jeffery {EPERM, IPMI_CC_INSUFFICIENT_PRIVILEGE}, 3052c07f6f0SAndrew Jeffery {EACCES, IPMI_CC_INSUFFICIENT_PRIVILEGE}, 3062c07f6f0SAndrew Jeffery {-1, IPMI_CC_UNSPECIFIED_ERROR}, 3072c07f6f0SAndrew Jeffery }; 3082c07f6f0SAndrew Jeffery 3092c07f6f0SAndrew Jeffery static int hiomap_xlate_errno(int err) 3102c07f6f0SAndrew Jeffery { 3112c07f6f0SAndrew Jeffery const errno_cc_entry* entry = &errno_cc_map[0]; 3122c07f6f0SAndrew Jeffery 3132c07f6f0SAndrew Jeffery while (!(entry->err == err || entry->err == -1)) 3142c07f6f0SAndrew Jeffery { 3152c07f6f0SAndrew Jeffery entry++; 3162c07f6f0SAndrew Jeffery } 3172c07f6f0SAndrew Jeffery 3182c07f6f0SAndrew Jeffery return entry->cc; 3192c07f6f0SAndrew Jeffery } 3202c07f6f0SAndrew Jeffery 3210a3358e7SAndrew Jeffery static void ipmi_hiomap_event_response(IpmiCmdData cmd, bool status) 3220a3358e7SAndrew Jeffery { 3230a3358e7SAndrew Jeffery using namespace phosphor::logging; 3240a3358e7SAndrew Jeffery 3250a3358e7SAndrew Jeffery if (!status) 3260a3358e7SAndrew Jeffery { 3270a3358e7SAndrew Jeffery log<level::ERR>("Failed to deliver host command", 3280a3358e7SAndrew Jeffery entry("SEL_COMMAND=%x:%x", cmd.first, cmd.second)); 3290a3358e7SAndrew Jeffery } 330619207dcSAndrew Jeffery 331619207dcSAndrew Jeffery assert(active_event_updates); 332619207dcSAndrew Jeffery active_event_updates--; 333619207dcSAndrew Jeffery if (!active_event_updates) 334619207dcSAndrew Jeffery { 335ee3064baSVernon Mauery sigtermResponse = SignalResponse::continueExecution; 336619207dcSAndrew Jeffery log<level::DEBUG>("Unblocked SIGTERM"); 337619207dcSAndrew Jeffery } 338619207dcSAndrew Jeffery } 3390a3358e7SAndrew Jeffery 3400a3358e7SAndrew Jeffery static int hiomap_handle_property_update(struct hiomap* ctx, 3410a3358e7SAndrew Jeffery sdbusplus::message::message& msg) 3420a3358e7SAndrew Jeffery { 343619207dcSAndrew Jeffery using namespace phosphor::logging; 344619207dcSAndrew Jeffery 3450a3358e7SAndrew Jeffery std::map<std::string, sdbusplus::message::variant<bool>> msgData; 346619207dcSAndrew Jeffery 347ee3064baSVernon Mauery sigtermResponse = SignalResponse::breakExecution; 348619207dcSAndrew Jeffery if (!active_event_updates) 349619207dcSAndrew Jeffery { 350ee3064baSVernon Mauery sigtermResponse = SignalResponse::breakExecution; 351619207dcSAndrew Jeffery log<level::DEBUG>("Blocked SIGTERM"); 352619207dcSAndrew Jeffery } 353619207dcSAndrew Jeffery active_event_updates++; 3540a3358e7SAndrew Jeffery 3550a3358e7SAndrew Jeffery std::string iface; 3560a3358e7SAndrew Jeffery msg.read(iface, msgData); 3570a3358e7SAndrew Jeffery 3580a3358e7SAndrew Jeffery for (auto const& x : msgData) 3590a3358e7SAndrew Jeffery { 3600a3358e7SAndrew Jeffery if (!ctx->event_lookup.count(x.first)) 3610a3358e7SAndrew Jeffery { 3620a3358e7SAndrew Jeffery /* Unsupported event? */ 3630a3358e7SAndrew Jeffery continue; 3640a3358e7SAndrew Jeffery } 3650a3358e7SAndrew Jeffery 3660a3358e7SAndrew Jeffery uint8_t mask = ctx->event_lookup[x.first]; 3670a3358e7SAndrew Jeffery auto value = sdbusplus::message::variant_ns::get<bool>(x.second); 3680a3358e7SAndrew Jeffery 3690a3358e7SAndrew Jeffery if (value) 3700a3358e7SAndrew Jeffery { 3710a3358e7SAndrew Jeffery ctx->bmc_events |= mask; 3720a3358e7SAndrew Jeffery } 3730a3358e7SAndrew Jeffery else 3740a3358e7SAndrew Jeffery { 3750a3358e7SAndrew Jeffery ctx->bmc_events &= ~mask; 3760a3358e7SAndrew Jeffery } 3770a3358e7SAndrew Jeffery } 3780a3358e7SAndrew Jeffery 3790a3358e7SAndrew Jeffery auto cmd = std::make_pair(IPMI_CMD_HIOMAP_EVENT, ctx->bmc_events); 3800a3358e7SAndrew Jeffery 3810a3358e7SAndrew Jeffery ipmid_send_cmd_to_host(std::make_tuple(cmd, ipmi_hiomap_event_response)); 3820a3358e7SAndrew Jeffery 3830a3358e7SAndrew Jeffery return 0; 3840a3358e7SAndrew Jeffery } 3850a3358e7SAndrew Jeffery 386619207dcSAndrew Jeffery static int hiomap_protocol_reset_response(IpmiCmdData cmd, bool status) 387619207dcSAndrew Jeffery { 388ee3064baSVernon Mauery // If this is running in signal context, ipmid will shutdown 389ee3064baSVernon Mauery // the event queue as the last signal handler 390*d4b7f5e4SAdriana Kobylak sigtermResponse = SignalResponse::continueExecution; 391ee3064baSVernon Mauery return 0; 392619207dcSAndrew Jeffery } 393619207dcSAndrew Jeffery 394ee3064baSVernon Mauery static int hiomap_protocol_reset(struct hiomap* ctx) 395619207dcSAndrew Jeffery { 396619207dcSAndrew Jeffery if (ctx->bmc_events == BMC_EVENT_PROTOCOL_RESET) 397619207dcSAndrew Jeffery { 398ee3064baSVernon Mauery // If this is running in signal context, ipmid will shutdown 399ee3064baSVernon Mauery // the event queue as the last signal handler 400*d4b7f5e4SAdriana Kobylak sigtermResponse = SignalResponse::continueExecution; 401ee3064baSVernon Mauery return 0; 402619207dcSAndrew Jeffery } 403619207dcSAndrew Jeffery 404619207dcSAndrew Jeffery /* 405619207dcSAndrew Jeffery * Send an attention indicating the hiomapd has died 406619207dcSAndrew Jeffery * (BMC_EVENT_DAEMON_READY cleared) and that the protocol has been reset 407619207dcSAndrew Jeffery * (BMC_EVENT_PROTOCOL_RESET set) to indicate to the host that it needs to 408619207dcSAndrew Jeffery * wait for the BMC to come back and renegotiate the protocol. 409619207dcSAndrew Jeffery * 410619207dcSAndrew Jeffery * We know this to be the case in systems that integrate 411619207dcSAndrew Jeffery * openpower-host-ipmi-flash, as hiomapd's unit depends on 412619207dcSAndrew Jeffery * phosphor-ipmi-host, and thus hiomapd has been terminated before ipmid 413619207dcSAndrew Jeffery * receives SIGTERM. 414619207dcSAndrew Jeffery */ 415619207dcSAndrew Jeffery auto cmd = std::make_pair(IPMI_CMD_HIOMAP_EVENT, BMC_EVENT_PROTOCOL_RESET); 416619207dcSAndrew Jeffery 417619207dcSAndrew Jeffery auto cmdHandler = std::make_tuple(cmd, hiomap_protocol_reset_response); 418619207dcSAndrew Jeffery ipmid_send_cmd_to_host(cmdHandler); 419619207dcSAndrew Jeffery 420619207dcSAndrew Jeffery return 0; 421619207dcSAndrew Jeffery } 422619207dcSAndrew Jeffery 4230a3358e7SAndrew Jeffery static bus::match::match hiomap_match_properties(struct hiomap* ctx) 4240a3358e7SAndrew Jeffery { 4250a3358e7SAndrew Jeffery auto properties = 4260a3358e7SAndrew Jeffery bus::match::rules::propertiesChanged(HIOMAPD_OBJECT, HIOMAPD_IFACE_V2); 4270a3358e7SAndrew Jeffery 4280a3358e7SAndrew Jeffery bus::match::match match( 4290a3358e7SAndrew Jeffery *ctx->bus, properties, 4300a3358e7SAndrew Jeffery std::bind(hiomap_handle_property_update, ctx, std::placeholders::_1)); 4310a3358e7SAndrew Jeffery 4320a3358e7SAndrew Jeffery return match; 4330a3358e7SAndrew Jeffery } 4340a3358e7SAndrew Jeffery 4350a3358e7SAndrew Jeffery static ipmi_ret_t hiomap_reset(ipmi_request_t request, ipmi_response_t response, 4360a3358e7SAndrew Jeffery ipmi_data_len_t data_len, ipmi_context_t context) 4370a3358e7SAndrew Jeffery { 4380a3358e7SAndrew Jeffery struct hiomap* ctx = static_cast<struct hiomap*>(context); 4390a3358e7SAndrew Jeffery 4400a3358e7SAndrew Jeffery auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, 4410a3358e7SAndrew Jeffery HIOMAPD_IFACE, "Reset"); 4420a3358e7SAndrew Jeffery try 4430a3358e7SAndrew Jeffery { 4440a3358e7SAndrew Jeffery ctx->bus->call(m); 4450a3358e7SAndrew Jeffery 4460a3358e7SAndrew Jeffery *data_len = 0; 4470a3358e7SAndrew Jeffery } 4480a3358e7SAndrew Jeffery catch (const exception::SdBusError& e) 4490a3358e7SAndrew Jeffery { 4500a3358e7SAndrew Jeffery return hiomap_xlate_errno(e.get_errno()); 4510a3358e7SAndrew Jeffery } 4520a3358e7SAndrew Jeffery 4530a3358e7SAndrew Jeffery return IPMI_CC_OK; 4540a3358e7SAndrew Jeffery } 4550a3358e7SAndrew Jeffery 4562c07f6f0SAndrew Jeffery static ipmi_ret_t hiomap_get_info(ipmi_request_t request, 4572c07f6f0SAndrew Jeffery ipmi_response_t response, 4582c07f6f0SAndrew Jeffery ipmi_data_len_t data_len, 4592c07f6f0SAndrew Jeffery ipmi_context_t context) 4602c07f6f0SAndrew Jeffery { 4610a3358e7SAndrew Jeffery struct hiomap* ctx = static_cast<struct hiomap*>(context); 4620a3358e7SAndrew Jeffery 4632c07f6f0SAndrew Jeffery if (*data_len < 1) 4642c07f6f0SAndrew Jeffery { 4652c07f6f0SAndrew Jeffery return IPMI_CC_REQ_DATA_LEN_INVALID; 4662c07f6f0SAndrew Jeffery } 4672c07f6f0SAndrew Jeffery 4682c07f6f0SAndrew Jeffery uint8_t* reqdata = (uint8_t*)request; 4690a3358e7SAndrew Jeffery auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, 4700a3358e7SAndrew Jeffery HIOMAPD_IFACE, "GetInfo"); 4712c07f6f0SAndrew Jeffery m.append(reqdata[0]); 4722c07f6f0SAndrew Jeffery 4732c07f6f0SAndrew Jeffery try 4742c07f6f0SAndrew Jeffery { 4750a3358e7SAndrew Jeffery auto reply = ctx->bus->call(m); 4762c07f6f0SAndrew Jeffery 4772c07f6f0SAndrew Jeffery uint8_t version; 4782c07f6f0SAndrew Jeffery uint8_t blockSizeShift; 4792c07f6f0SAndrew Jeffery uint16_t timeout; 4802c07f6f0SAndrew Jeffery reply.read(version, blockSizeShift, timeout); 4812c07f6f0SAndrew Jeffery 4822c07f6f0SAndrew Jeffery uint8_t* respdata = (uint8_t*)response; 4832c07f6f0SAndrew Jeffery 4842c07f6f0SAndrew Jeffery /* FIXME: Assumes v2! */ 4852c07f6f0SAndrew Jeffery put(&respdata[0], version); 4862c07f6f0SAndrew Jeffery put(&respdata[1], blockSizeShift); 4872c07f6f0SAndrew Jeffery put(&respdata[2], htole16(timeout)); 4882c07f6f0SAndrew Jeffery 4892c07f6f0SAndrew Jeffery *data_len = 4; 4902c07f6f0SAndrew Jeffery } 4912c07f6f0SAndrew Jeffery catch (const exception::SdBusError& e) 4922c07f6f0SAndrew Jeffery { 4932c07f6f0SAndrew Jeffery return hiomap_xlate_errno(e.get_errno()); 4942c07f6f0SAndrew Jeffery } 4952c07f6f0SAndrew Jeffery 4962c07f6f0SAndrew Jeffery return IPMI_CC_OK; 4972c07f6f0SAndrew Jeffery } 4982c07f6f0SAndrew Jeffery 499db688e9fSAndrew Jeffery static ipmi_ret_t hiomap_get_flash_info(ipmi_request_t request, 500db688e9fSAndrew Jeffery ipmi_response_t response, 501db688e9fSAndrew Jeffery ipmi_data_len_t data_len, 502db688e9fSAndrew Jeffery ipmi_context_t context) 503db688e9fSAndrew Jeffery { 504db688e9fSAndrew Jeffery struct hiomap* ctx = static_cast<struct hiomap*>(context); 505db688e9fSAndrew Jeffery 506db688e9fSAndrew Jeffery auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, 507db688e9fSAndrew Jeffery HIOMAPD_IFACE_V2, "GetFlashInfo"); 508db688e9fSAndrew Jeffery try 509db688e9fSAndrew Jeffery { 510db688e9fSAndrew Jeffery auto reply = ctx->bus->call(m); 511db688e9fSAndrew Jeffery 512db688e9fSAndrew Jeffery uint16_t flashSize, eraseSize; 513db688e9fSAndrew Jeffery reply.read(flashSize, eraseSize); 514db688e9fSAndrew Jeffery 515db688e9fSAndrew Jeffery uint8_t* respdata = (uint8_t*)response; 516db688e9fSAndrew Jeffery put(&respdata[0], htole16(flashSize)); 517db688e9fSAndrew Jeffery put(&respdata[2], htole16(eraseSize)); 518db688e9fSAndrew Jeffery 519db688e9fSAndrew Jeffery *data_len = 4; 520db688e9fSAndrew Jeffery } 521db688e9fSAndrew Jeffery catch (const exception::SdBusError& e) 522db688e9fSAndrew Jeffery { 523db688e9fSAndrew Jeffery return hiomap_xlate_errno(e.get_errno()); 524db688e9fSAndrew Jeffery } 525db688e9fSAndrew Jeffery 526db688e9fSAndrew Jeffery return IPMI_CC_OK; 527db688e9fSAndrew Jeffery } 528db688e9fSAndrew Jeffery 529a00f59baSAndrew Jeffery static ipmi_ret_t hiomap_create_window(struct hiomap* ctx, bool ro, 530a00f59baSAndrew Jeffery ipmi_request_t request, 531a00f59baSAndrew Jeffery ipmi_response_t response, 532a00f59baSAndrew Jeffery ipmi_data_len_t data_len) 533a00f59baSAndrew Jeffery { 534a00f59baSAndrew Jeffery if (*data_len < 4) 535a00f59baSAndrew Jeffery { 536a00f59baSAndrew Jeffery return IPMI_CC_REQ_DATA_LEN_INVALID; 537a00f59baSAndrew Jeffery } 538a00f59baSAndrew Jeffery 539a00f59baSAndrew Jeffery uint8_t* reqdata = (uint8_t*)request; 540a00f59baSAndrew Jeffery auto windowType = ro ? "CreateReadWindow" : "CreateWriteWindow"; 541a00f59baSAndrew Jeffery 542a00f59baSAndrew Jeffery auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, 543a00f59baSAndrew Jeffery HIOMAPD_IFACE_V2, windowType); 544a00f59baSAndrew Jeffery m.append(le16toh(get<uint16_t>(&reqdata[0]))); 545a00f59baSAndrew Jeffery m.append(le16toh(get<uint16_t>(&reqdata[2]))); 546a00f59baSAndrew Jeffery 547a00f59baSAndrew Jeffery try 548a00f59baSAndrew Jeffery { 549a00f59baSAndrew Jeffery auto reply = ctx->bus->call(m); 550a00f59baSAndrew Jeffery 551a00f59baSAndrew Jeffery uint16_t lpcAddress, size, offset; 552a00f59baSAndrew Jeffery reply.read(lpcAddress, size, offset); 553a00f59baSAndrew Jeffery 554a00f59baSAndrew Jeffery uint8_t* respdata = (uint8_t*)response; 555a00f59baSAndrew Jeffery 556a00f59baSAndrew Jeffery /* FIXME: Assumes v2! */ 557a00f59baSAndrew Jeffery put(&respdata[0], htole16(lpcAddress)); 558a00f59baSAndrew Jeffery put(&respdata[2], htole16(size)); 559a00f59baSAndrew Jeffery put(&respdata[4], htole16(offset)); 560a00f59baSAndrew Jeffery 561a00f59baSAndrew Jeffery *data_len = 6; 562a00f59baSAndrew Jeffery } 563a00f59baSAndrew Jeffery catch (const exception::SdBusError& e) 564a00f59baSAndrew Jeffery { 565a00f59baSAndrew Jeffery return hiomap_xlate_errno(e.get_errno()); 566a00f59baSAndrew Jeffery } 567a00f59baSAndrew Jeffery 568a00f59baSAndrew Jeffery return IPMI_CC_OK; 569a00f59baSAndrew Jeffery } 570a00f59baSAndrew Jeffery 571a00f59baSAndrew Jeffery static ipmi_ret_t hiomap_create_read_window(ipmi_request_t request, 572a00f59baSAndrew Jeffery ipmi_response_t response, 573a00f59baSAndrew Jeffery ipmi_data_len_t data_len, 574a00f59baSAndrew Jeffery ipmi_context_t context) 575a00f59baSAndrew Jeffery { 576a00f59baSAndrew Jeffery struct hiomap* ctx = static_cast<struct hiomap*>(context); 577a00f59baSAndrew Jeffery 578a00f59baSAndrew Jeffery return hiomap_create_window(ctx, true, request, response, data_len); 579a00f59baSAndrew Jeffery } 580a00f59baSAndrew Jeffery 581a00f59baSAndrew Jeffery static ipmi_ret_t hiomap_create_write_window(ipmi_request_t request, 582a00f59baSAndrew Jeffery ipmi_response_t response, 583a00f59baSAndrew Jeffery ipmi_data_len_t data_len, 584a00f59baSAndrew Jeffery ipmi_context_t context) 585a00f59baSAndrew Jeffery { 586a00f59baSAndrew Jeffery struct hiomap* ctx = static_cast<struct hiomap*>(context); 587a00f59baSAndrew Jeffery 588a00f59baSAndrew Jeffery return hiomap_create_window(ctx, false, request, response, data_len); 589a00f59baSAndrew Jeffery } 590a00f59baSAndrew Jeffery 591b52822cdSAndrew Jeffery static ipmi_ret_t hiomap_close_window(ipmi_request_t request, 592b52822cdSAndrew Jeffery ipmi_response_t response, 593b52822cdSAndrew Jeffery ipmi_data_len_t data_len, 594b52822cdSAndrew Jeffery ipmi_context_t context) 595b52822cdSAndrew Jeffery { 596b52822cdSAndrew Jeffery struct hiomap* ctx = static_cast<struct hiomap*>(context); 597b52822cdSAndrew Jeffery 598b52822cdSAndrew Jeffery if (*data_len < 1) 599b52822cdSAndrew Jeffery { 600b52822cdSAndrew Jeffery return IPMI_CC_REQ_DATA_LEN_INVALID; 601b52822cdSAndrew Jeffery } 602b52822cdSAndrew Jeffery 603b52822cdSAndrew Jeffery uint8_t* reqdata = (uint8_t*)request; 604b52822cdSAndrew Jeffery auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, 605b52822cdSAndrew Jeffery HIOMAPD_IFACE_V2, "CloseWindow"); 606b52822cdSAndrew Jeffery m.append(reqdata[0]); 607b52822cdSAndrew Jeffery 608b52822cdSAndrew Jeffery try 609b52822cdSAndrew Jeffery { 610b52822cdSAndrew Jeffery auto reply = ctx->bus->call(m); 611b52822cdSAndrew Jeffery 612b52822cdSAndrew Jeffery *data_len = 0; 613b52822cdSAndrew Jeffery } 614b52822cdSAndrew Jeffery catch (const exception::SdBusError& e) 615b52822cdSAndrew Jeffery { 616b52822cdSAndrew Jeffery return hiomap_xlate_errno(e.get_errno()); 617b52822cdSAndrew Jeffery } 618b52822cdSAndrew Jeffery 619b52822cdSAndrew Jeffery return IPMI_CC_OK; 620b52822cdSAndrew Jeffery } 621b52822cdSAndrew Jeffery 6229847f1c2SAndrew Jeffery static ipmi_ret_t hiomap_mark_dirty(ipmi_request_t request, 6239847f1c2SAndrew Jeffery ipmi_response_t response, 6249847f1c2SAndrew Jeffery ipmi_data_len_t data_len, 6259847f1c2SAndrew Jeffery ipmi_context_t context) 6269847f1c2SAndrew Jeffery { 6279847f1c2SAndrew Jeffery struct hiomap* ctx = static_cast<struct hiomap*>(context); 6289847f1c2SAndrew Jeffery 6299847f1c2SAndrew Jeffery if (*data_len < 4) 6309847f1c2SAndrew Jeffery { 6319847f1c2SAndrew Jeffery return IPMI_CC_REQ_DATA_LEN_INVALID; 6329847f1c2SAndrew Jeffery } 6339847f1c2SAndrew Jeffery 6349847f1c2SAndrew Jeffery uint8_t* reqdata = (uint8_t*)request; 6359847f1c2SAndrew Jeffery auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, 6369847f1c2SAndrew Jeffery HIOMAPD_IFACE_V2, "MarkDirty"); 6379847f1c2SAndrew Jeffery /* FIXME: Assumes v2 */ 6389847f1c2SAndrew Jeffery m.append(le16toh(get<uint16_t>(&reqdata[0]))); /* offset */ 6399847f1c2SAndrew Jeffery m.append(le16toh(get<uint16_t>(&reqdata[2]))); /* size */ 6409847f1c2SAndrew Jeffery 6419847f1c2SAndrew Jeffery try 6429847f1c2SAndrew Jeffery { 6439847f1c2SAndrew Jeffery auto reply = ctx->bus->call(m); 6449847f1c2SAndrew Jeffery 6459847f1c2SAndrew Jeffery *data_len = 0; 6469847f1c2SAndrew Jeffery } 6479847f1c2SAndrew Jeffery catch (const exception::SdBusError& e) 6489847f1c2SAndrew Jeffery { 6499847f1c2SAndrew Jeffery return hiomap_xlate_errno(e.get_errno()); 6509847f1c2SAndrew Jeffery } 6519847f1c2SAndrew Jeffery 6529847f1c2SAndrew Jeffery return IPMI_CC_OK; 6539847f1c2SAndrew Jeffery } 6549847f1c2SAndrew Jeffery 6557b225fb2SAndrew Jeffery static ipmi_ret_t hiomap_flush(ipmi_request_t request, ipmi_response_t response, 6567b225fb2SAndrew Jeffery ipmi_data_len_t data_len, ipmi_context_t context) 6577b225fb2SAndrew Jeffery { 6587b225fb2SAndrew Jeffery struct hiomap* ctx = static_cast<struct hiomap*>(context); 6597b225fb2SAndrew Jeffery 6607b225fb2SAndrew Jeffery auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, 6617b225fb2SAndrew Jeffery HIOMAPD_IFACE_V2, "Flush"); 6627b225fb2SAndrew Jeffery 6637b225fb2SAndrew Jeffery try 6647b225fb2SAndrew Jeffery { 6657b225fb2SAndrew Jeffery /* FIXME: No argument call assumes v2 */ 6667b225fb2SAndrew Jeffery auto reply = ctx->bus->call(m); 6677b225fb2SAndrew Jeffery 6687b225fb2SAndrew Jeffery *data_len = 0; 6697b225fb2SAndrew Jeffery } 6707b225fb2SAndrew Jeffery catch (const exception::SdBusError& e) 6717b225fb2SAndrew Jeffery { 6727b225fb2SAndrew Jeffery return hiomap_xlate_errno(e.get_errno()); 6737b225fb2SAndrew Jeffery } 6747b225fb2SAndrew Jeffery 6757b225fb2SAndrew Jeffery return IPMI_CC_OK; 6767b225fb2SAndrew Jeffery } 6777b225fb2SAndrew Jeffery 67899f277a1SAndrew Jeffery static ipmi_ret_t hiomap_ack(ipmi_request_t request, ipmi_response_t response, 67999f277a1SAndrew Jeffery ipmi_data_len_t data_len, ipmi_context_t context) 68099f277a1SAndrew Jeffery { 68199f277a1SAndrew Jeffery struct hiomap* ctx = static_cast<struct hiomap*>(context); 68299f277a1SAndrew Jeffery 68399f277a1SAndrew Jeffery if (*data_len < 1) 68499f277a1SAndrew Jeffery { 68599f277a1SAndrew Jeffery return IPMI_CC_REQ_DATA_LEN_INVALID; 68699f277a1SAndrew Jeffery } 68799f277a1SAndrew Jeffery 68899f277a1SAndrew Jeffery uint8_t* reqdata = (uint8_t*)request; 68999f277a1SAndrew Jeffery auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, 69099f277a1SAndrew Jeffery HIOMAPD_IFACE_V2, "Ack"); 69199f277a1SAndrew Jeffery auto acked = reqdata[0]; 69299f277a1SAndrew Jeffery m.append(acked); 69399f277a1SAndrew Jeffery 69499f277a1SAndrew Jeffery try 69599f277a1SAndrew Jeffery { 69699f277a1SAndrew Jeffery auto reply = ctx->bus->call(m); 69799f277a1SAndrew Jeffery 69899f277a1SAndrew Jeffery *data_len = 0; 69999f277a1SAndrew Jeffery } 70099f277a1SAndrew Jeffery catch (const exception::SdBusError& e) 70199f277a1SAndrew Jeffery { 70299f277a1SAndrew Jeffery return hiomap_xlate_errno(e.get_errno()); 70399f277a1SAndrew Jeffery } 70499f277a1SAndrew Jeffery 70599f277a1SAndrew Jeffery return IPMI_CC_OK; 70699f277a1SAndrew Jeffery } 70799f277a1SAndrew Jeffery 708a1e35b85SAndrew Jeffery static ipmi_ret_t hiomap_erase(ipmi_request_t request, ipmi_response_t response, 709a1e35b85SAndrew Jeffery ipmi_data_len_t data_len, ipmi_context_t context) 710a1e35b85SAndrew Jeffery { 711a1e35b85SAndrew Jeffery struct hiomap* ctx = static_cast<struct hiomap*>(context); 712a1e35b85SAndrew Jeffery 713a1e35b85SAndrew Jeffery if (*data_len < 4) 714a1e35b85SAndrew Jeffery { 715a1e35b85SAndrew Jeffery return IPMI_CC_REQ_DATA_LEN_INVALID; 716a1e35b85SAndrew Jeffery } 717a1e35b85SAndrew Jeffery 718a1e35b85SAndrew Jeffery uint8_t* reqdata = (uint8_t*)request; 719a1e35b85SAndrew Jeffery auto m = ctx->bus->new_method_call(HIOMAPD_SERVICE, HIOMAPD_OBJECT, 720a1e35b85SAndrew Jeffery HIOMAPD_IFACE_V2, "Erase"); 721a1e35b85SAndrew Jeffery /* FIXME: Assumes v2 */ 722a1e35b85SAndrew Jeffery m.append(le16toh(get<uint16_t>(&reqdata[0]))); /* offset */ 723a1e35b85SAndrew Jeffery m.append(le16toh(get<uint16_t>(&reqdata[2]))); /* size */ 724a1e35b85SAndrew Jeffery 725a1e35b85SAndrew Jeffery try 726a1e35b85SAndrew Jeffery { 727a1e35b85SAndrew Jeffery auto reply = ctx->bus->call(m); 728a1e35b85SAndrew Jeffery 729a1e35b85SAndrew Jeffery *data_len = 0; 730a1e35b85SAndrew Jeffery } 731a1e35b85SAndrew Jeffery catch (const exception::SdBusError& e) 732a1e35b85SAndrew Jeffery { 733a1e35b85SAndrew Jeffery return hiomap_xlate_errno(e.get_errno()); 734a1e35b85SAndrew Jeffery } 735a1e35b85SAndrew Jeffery 736a1e35b85SAndrew Jeffery return IPMI_CC_OK; 737a1e35b85SAndrew Jeffery } 738a1e35b85SAndrew Jeffery 73904d75136SAndrew Jeffery #define HIOMAP_C_RESET 1 74004d75136SAndrew Jeffery #define HIOMAP_C_GET_INFO 2 74104d75136SAndrew Jeffery #define HIOMAP_C_GET_FLASH_INFO 3 74204d75136SAndrew Jeffery #define HIOMAP_C_CREATE_READ_WINDOW 4 74304d75136SAndrew Jeffery #define HIOMAP_C_CLOSE_WINDOW 5 74404d75136SAndrew Jeffery #define HIOMAP_C_CREATE_WRITE_WINDOW 6 74504d75136SAndrew Jeffery #define HIOMAP_C_MARK_DIRTY 7 74604d75136SAndrew Jeffery #define HIOMAP_C_FLUSH 8 74704d75136SAndrew Jeffery #define HIOMAP_C_ACK 9 74804d75136SAndrew Jeffery #define HIOMAP_C_ERASE 10 74904d75136SAndrew Jeffery 7502c07f6f0SAndrew Jeffery static const hiomap_command hiomap_commands[] = { 75104d75136SAndrew Jeffery [0] = NULL, /* Invalid command ID */ 75204d75136SAndrew Jeffery [HIOMAP_C_RESET] = hiomap_reset, 75304d75136SAndrew Jeffery [HIOMAP_C_GET_INFO] = hiomap_get_info, 75404d75136SAndrew Jeffery [HIOMAP_C_GET_FLASH_INFO] = hiomap_get_flash_info, 75504d75136SAndrew Jeffery [HIOMAP_C_CREATE_READ_WINDOW] = hiomap_create_read_window, 75604d75136SAndrew Jeffery [HIOMAP_C_CLOSE_WINDOW] = hiomap_close_window, 75704d75136SAndrew Jeffery [HIOMAP_C_CREATE_WRITE_WINDOW] = hiomap_create_write_window, 75804d75136SAndrew Jeffery [HIOMAP_C_MARK_DIRTY] = hiomap_mark_dirty, 75904d75136SAndrew Jeffery [HIOMAP_C_FLUSH] = hiomap_flush, 76004d75136SAndrew Jeffery [HIOMAP_C_ACK] = hiomap_ack, 76104d75136SAndrew Jeffery [HIOMAP_C_ERASE] = hiomap_erase, 7622c07f6f0SAndrew Jeffery }; 7632c07f6f0SAndrew Jeffery 7642c07f6f0SAndrew Jeffery /* FIXME: Define this in the "right" place, wherever that is */ 7652c07f6f0SAndrew Jeffery /* FIXME: Double evaluation */ 7662c07f6f0SAndrew Jeffery #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) 7672c07f6f0SAndrew Jeffery 7682c07f6f0SAndrew Jeffery static ipmi_ret_t hiomap_dispatch(ipmi_netfn_t netfn, ipmi_cmd_t cmd, 7692c07f6f0SAndrew Jeffery ipmi_request_t request, 7702c07f6f0SAndrew Jeffery ipmi_response_t response, 7712c07f6f0SAndrew Jeffery ipmi_data_len_t data_len, 7722c07f6f0SAndrew Jeffery ipmi_context_t context) 7732c07f6f0SAndrew Jeffery { 7740a3358e7SAndrew Jeffery struct hiomap* ctx = static_cast<struct hiomap*>(context); 7750a3358e7SAndrew Jeffery 7762c07f6f0SAndrew Jeffery if (*data_len < 2) 7772c07f6f0SAndrew Jeffery { 7782c07f6f0SAndrew Jeffery *data_len = 0; 7792c07f6f0SAndrew Jeffery return IPMI_CC_REQ_DATA_LEN_INVALID; 7802c07f6f0SAndrew Jeffery } 7812c07f6f0SAndrew Jeffery 7822c07f6f0SAndrew Jeffery uint8_t* ipmi_req = (uint8_t*)request; 7832c07f6f0SAndrew Jeffery uint8_t* ipmi_resp = (uint8_t*)response; 7842c07f6f0SAndrew Jeffery uint8_t hiomap_cmd = ipmi_req[0]; 7852c07f6f0SAndrew Jeffery 7862c07f6f0SAndrew Jeffery if (hiomap_cmd == 0 || hiomap_cmd > ARRAY_SIZE(hiomap_commands) - 1) 7872c07f6f0SAndrew Jeffery { 7882c07f6f0SAndrew Jeffery *data_len = 0; 7892c07f6f0SAndrew Jeffery return IPMI_CC_PARM_OUT_OF_RANGE; 7902c07f6f0SAndrew Jeffery } 79104d75136SAndrew Jeffery 79204d75136SAndrew Jeffery bool is_unversioned = 79304d75136SAndrew Jeffery (hiomap_cmd == HIOMAP_C_RESET || hiomap_cmd == HIOMAP_C_GET_INFO || 79404d75136SAndrew Jeffery hiomap_cmd == HIOMAP_C_ACK); 79504d75136SAndrew Jeffery if (!is_unversioned && ctx->seq == ipmi_req[1]) 79604d75136SAndrew Jeffery { 79704d75136SAndrew Jeffery *data_len = 0; 79804d75136SAndrew Jeffery return IPMI_CC_INVALID_FIELD_REQUEST; 79904d75136SAndrew Jeffery } 80004d75136SAndrew Jeffery 80104d75136SAndrew Jeffery ctx->seq = ipmi_req[1]; 80204d75136SAndrew Jeffery 8032c07f6f0SAndrew Jeffery uint8_t* flash_req = ipmi_req + 2; 8042c07f6f0SAndrew Jeffery size_t flash_len = *data_len - 2; 8052c07f6f0SAndrew Jeffery uint8_t* flash_resp = ipmi_resp + 2; 8062c07f6f0SAndrew Jeffery 8072c07f6f0SAndrew Jeffery ipmi_ret_t cc = 8082c07f6f0SAndrew Jeffery hiomap_commands[hiomap_cmd](flash_req, flash_resp, &flash_len, context); 8092c07f6f0SAndrew Jeffery if (cc != IPMI_CC_OK) 8102c07f6f0SAndrew Jeffery { 8112c07f6f0SAndrew Jeffery *data_len = 0; 8122c07f6f0SAndrew Jeffery return cc; 8132c07f6f0SAndrew Jeffery } 8142c07f6f0SAndrew Jeffery 8152c07f6f0SAndrew Jeffery /* Populate the response command and sequence */ 8160a3358e7SAndrew Jeffery ipmi_resp[0] = hiomap_cmd; 81704d75136SAndrew Jeffery ipmi_resp[1] = ctx->seq; 8182c07f6f0SAndrew Jeffery 8192c07f6f0SAndrew Jeffery *data_len = flash_len + 2; 8202c07f6f0SAndrew Jeffery 8212c07f6f0SAndrew Jeffery return cc; 8222c07f6f0SAndrew Jeffery } 8232c07f6f0SAndrew Jeffery } // namespace flash 8242c07f6f0SAndrew Jeffery } // namespace openpower 8252c07f6f0SAndrew Jeffery 8262c07f6f0SAndrew Jeffery static void register_openpower_hiomap_commands() 8272c07f6f0SAndrew Jeffery { 828619207dcSAndrew Jeffery using namespace phosphor::logging; 8290a3358e7SAndrew Jeffery using namespace openpower::flash; 8300a3358e7SAndrew Jeffery 8310a3358e7SAndrew Jeffery struct hiomap* ctx = new hiomap(); 8320a3358e7SAndrew Jeffery 8330a3358e7SAndrew Jeffery /* Initialise mapping from signal and property names to status bit */ 8340a3358e7SAndrew Jeffery ctx->event_lookup["DaemonReady"] = BMC_EVENT_DAEMON_READY; 8350a3358e7SAndrew Jeffery ctx->event_lookup["FlashControlLost"] = BMC_EVENT_FLASH_CTRL_LOST; 8360a3358e7SAndrew Jeffery ctx->event_lookup["WindowReset"] = BMC_EVENT_WINDOW_RESET; 8370a3358e7SAndrew Jeffery ctx->event_lookup["ProtocolReset"] = BMC_EVENT_PROTOCOL_RESET; 8380a3358e7SAndrew Jeffery 8390a3358e7SAndrew Jeffery ctx->bus = new bus::bus(ipmid_get_sd_bus_connection()); 8400a3358e7SAndrew Jeffery 8410a3358e7SAndrew Jeffery /* Initialise signal handling */ 8420a3358e7SAndrew Jeffery 8430a3358e7SAndrew Jeffery /* 8440a3358e7SAndrew Jeffery * Can't use temporaries here because that causes SEGFAULTs due to slot 8450a3358e7SAndrew Jeffery * destruction (!?), so enjoy the weird wrapping. 8460a3358e7SAndrew Jeffery */ 8470a3358e7SAndrew Jeffery ctx->properties = 8480a3358e7SAndrew Jeffery new bus::match::match(std::move(hiomap_match_properties(ctx))); 849619207dcSAndrew Jeffery 850ee3064baSVernon Mauery std::function<SignalResponse(int)> shutdownHandler = 851ee3064baSVernon Mauery [ctx](int signalNumber) { 852ee3064baSVernon Mauery hiomap_protocol_reset(ctx); 853ee3064baSVernon Mauery return sigtermResponse; 854ee3064baSVernon Mauery }; 855ee3064baSVernon Mauery registerSignalHandler(ipmi::prioMax, SIGTERM, shutdownHandler); 8560a3358e7SAndrew Jeffery 8570a3358e7SAndrew Jeffery ipmi_register_callback(NETFUN_IBM_OEM, IPMI_CMD_HIOMAP, ctx, 8582c07f6f0SAndrew Jeffery openpower::flash::hiomap_dispatch, SYSTEM_INTERFACE); 8592c07f6f0SAndrew Jeffery } 860