/* * Copyright (c) 2012-2014 Apple Computer, Inc. All Rights Reserved. * * @APPLE_OSREFERENCE_LICENSE_HEADER_START@ * * This file contains Original Code and/or Modifications of Original Code * as defined in and that are subject to the Apple Public Source License * Version 2.0 (the 'License'). You may not use this file except in * compliance with the License. The rights granted to you under the License * may not be used to create, or enable the creation or redistribution of, * unlawful or unlicensed copies of an Apple operating system, or to * circumvent, violate, or enable the circumvention or violation of, any * terms of an Apple operating system software license agreement. * * Please obtain a copy of the License at * http://www.opensource.apple.com/apsl/ and read it before using this file. * * The Original Code and all software distributed under the License are * distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR NON-INFRINGEMENT. * Please see the License for the specific language governing rights and * limitations under the License. * * @APPLE_OSREFERENCE_LICENSE_HEADER_END@ */ /* * FILE: IOReporter.h * AUTH: Cyril & Soren (Core OS) * DATE: 2012-2013 (Copyright Apple Inc.) * DESC: IOReporting interfaces for I/O Kit drivers * */ #ifndef _IOKERNEL_REPORTERS_H_ #define _IOKERNEL_REPORTERS_H_ #include #include #include #include #include #include #include typedef OSDictionary IOReportLegendEntry; /******************************* TOC: this file contains 1. Introduction 2a. IOReporter class declaration (public & non-public members) 2b. static IOReporter methods unrelated to the class 3. IOReporter subclass declarations (public & non-public members) 4. IOReportLegend class declaration *******************************/ /*! 1. Introduction IOReporting is a mechanism for I/O Kit drivers to gather statistics (or other information) and make it available to various "observers," which are generally in user space. Requests for information come through two new IOService methods: ::configureReport(...) and ::updateReport(...). While not required (see IOReportTypes.h), drivers will generally use IOReporter subclass instances to track the requested information and respond to IOReporting requests. Drivers can use these classes to track information, either all the time or between "enable" and "disable" calls to IOService::configureReport(). Available information is organized into "channels." A channel is uniquely identified by both driver (registry) ID and a 64-bit channel ID. One way drivers can advertise their channels is by publishing "legends" in the I/O Kit registry. In addition to collecting information and responding to queries, IOReporter objects can produce legend entries describing their channels. The IOReportLegend class helps manage legend entries from multiple reporter objects as well as with grouping channels logically for observers. An important basic constraint of the current implementation is that all channels reported by a particular reporter instance must share all traits except channel ID and name. Specifically, the channel type (including report class, categories, & size) and units. Additionally, IOHistogramReporter currently only supports one channel at a time. Currently, ::{configure/update}Report() can be called any time between when a driver calls registerService() and when free() is called on your driver. 12960947 tracks improvements / recommendations for correctly handling these calls during termination. * Locking IOReporting only imposes concurrent access constraints when multiple threads are accessing the same object. Three levels of constraint apply depending on a method's purpose: 1. Allocation/Teardown - same-instance concurrency UNSAFE, MAY BLOCK 2. Configuration - same-instance concurrency SAFE, MAY BLOCK 3. Update - same-instance concurrency SAFE, WILL NOT BLOCK Configuration requires memory management which can block and must be invoked with interrupts ENABLED (for example, NOT in the interrupt context NOR with a spin lock -- like IOSimpleLock -- held). Updates can be performed with interrupts disabled, but clients should take into account that IOReporters' non-blocking currenency is achieved with IOSimpleLockLockDisable/UnlockEnableInterrupts(): that is, by disabling interrupts and taking a spin lock. While IOReporting will never hold a lock beyond a call into it, some time may be spent within the call spin-waiting for the lock. Clients holding their own spin locks should carefully consider the impact of IOReporting's (small) additional latency before calling it while holding a spin lock. The documentation for each method indicates any concurrency guarantees. */ /*********************************/ /*** 2a. IOReporter Base Class ***/ /*********************************/ class IOReporter : public OSObject { OSDeclareDefaultStructors(IOReporter); protected: /*! @function IOReporter::init @abstract base init() method, called by subclass initWith() methods @param reportingService - IOService associated with all channels @param channelType - type info for all channels (element_idx = 0) @param unit - description applied for all channels @result true on success, false otherwise @discussion init() establishes the parameters of all channels for this reporter instance. Any channels added via addChannel() will be of this type and have this unit. IOReporter clients should use the static ::with() methods below to obtain fully-initialized reporter instances. ::free() expects ::init() to have completed successfully. On failure, any allocations are cleaned up. Locking: same-instance concurrency UNSAFE */ virtual bool init(IOService *reportingService, IOReportChannelType channelType, IOReportUnits unit); public: /*! @function IOReporter::addChannel @abstract add an additional, similar channel to the reporter @param channelID - identifier for the channel to be added @param channelName - an optional human-readble name for the channel @result appropriate IOReturn code @discussion The reporter will allocate memory to track a new channel with the provided ID and name (if any). Its other traits (type, etc) will be those provided when the reporter was initialized. If no channel name is provided and the channelID consists solely of ASCII bytes, those bytes (ignoring any NUL bytes) will be used as the human-readable channel name in user space. The IOREPORT_MAKEID() macro in IOReportTypes.h can be used to create ASCII channel IDs. Locking: same-instance concurrency SAFE, MAY BLOCK */ IOReturn addChannel(uint64_t channelID, const char *channelName = NULL); /*! @function IOReporter::createLegend @abstract create a legend entry represending this reporter's channels @result An IOReportLegendEntry object or NULL on failure. @discussion All channels added to the reporter will be represented in the resulting legend entry. Legends must be published togethar as an array under the kIOReportLegendKey in the I/O Kit registry. The IOReportLegend class can be used to properly combine legend entries from multiple reporters as well as to put channels into groups of interest to observers. When published, individual legend entries share characteristics such as group and sub-group. Multiple IOReporter instances are required to produce independent legend entries which can then be published with different characteristics. Drivers wishing to publish legends should do so as part of their ::start() routine. As superclasses *may* have installed legend entries, any existing existing legend should be retrieved and IOReportLegend used to merge it with the new entries. Recommendations for best practices are forthcoming. Instead of calling createLegend on your reporter object and then appending it manually to IOReportLegend, one may prefer to call IOReportLegend::appendReporterLegend which creates and appends a reporter's IOReportLegendEntry in a single call. Locking: same-instance concurrency SAFE, MAY BLOCK */ IOReportLegendEntry* createLegend(void); /*! @function IOReporter::configureReport @abstract track IOService::configureReport(), provide sizing info @param channelList - channels to configure @param action - enable/disable/size, etc (see IOReportTypes.h) @param result - *incremented* for kIOReportGetDimensions @param destination - action-specific default destination @result appropriate IOReturn code @discussion Any time a reporting driver's ::configureReport method is invoked, this method should be invoked on each IOReporter that is being used by that driver to report channels in channelList. Any channels in channelList which are not tracked by this reporter are ignored. ::configureReport(kIOReportGetDimensions) expects the full size of all channels, including any reported by superclasses. It is valid to call this routine on multiple reporter objects in succession and they will increment 'result' to provide the correct total. In the initial release, this routine is only required to calculate the response to kIOReportGetDimensions, but in the future it will will enable functionality like "triggered polling" via kIOReportNotifyHubOnChange. Internally, it is already keeping track of the number of times each channel has been enabled and disabled. 13073064 tracks adding a method to see whether any channels are currently being observed. The static IOReporter::configureAllReports() will call this method on multiple reporters grouped in an OSSet. Locking: same-instance concurrency SAFE, MAY BLOCK */ IOReturn configureReport(IOReportChannelList *channelList, IOReportConfigureAction action, void *result, void *destination); /*! @function IOReporter::updateReport @abstract Produce standard reply to IOService::updateReport() @param channelList - channels to update @param action - copy/trace data (see IOReportTypes.h) @param result - action-specific return value (e.g. size of data) @param destination - destination for this update (action-specific) @result appropriate IOReturn code @discussion This method searches channelList for channels tracked by this reporter, writes the corresponding data into 'destination', and updates 'result'. It should be possible to pass a given set of IOService::updateReport() arguments to any and all reporters as well as to super::updateReport() and get the right result. The static IOReporter::updateAllReports() will call this method on an OSSet of reporters. Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ IOReturn updateReport(IOReportChannelList *channelList, IOReportConfigureAction action, void *result, void *destination); /*! @function IOReporter::free @abstract Releases the object and all its resources. @discussion ::free() [called on last ->release()] assumes that init() [called by static ::with() methods] has completed successfully. Locking: same-instance concurrency UNSAFE */ virtual void free(void); /*********************************/ /*** 2b. Useful Static Methods ***/ /*********************************/ /* The following static functions are intended to simplify the management * of multiple reporters. They may be superseded in the future by an * IOReportManager class. */ /*! @function IOReporter::configureAllReports @abstract call configureReport() on multiple IOReporter objects @param reporters - OSSet of IOReporter objects @param channelList - full list of channels to configure @param action - enable/disable/size, etc @param result - action-specific returned value @param destination - action-specific default destination @result success if all objects successfully complete IOReporter::configureReport() @discussion The OSSet must only contain IOReporter instances. The presence of non-IOReporter instances will cause this function to return kIOReturnBadArgument. If any reporter returns an error, the function will immediately return that error. Per the IOReporter::configureReport() documentation, each reporter will search channelList for channels it is reporting and provide a partial response. */ static IOReturn configureAllReports(OSSet *reporters, IOReportChannelList *channelList, IOReportConfigureAction action, void *result, void *destination); // FIXME: just put the function (inline-ish) here? /*! @function IOReporter::updateAllReports @abstract call updateReport() on multiple IOReporter objects @param reporters - OSSet of IOReporter objects @param channels - full list of channels to update @param action - type/style of update @param result - returned details about what was updated @param destination - destination for this update (action-specific) @result IOReturn code @discussion The OSSet must only contain IOReporter instances. The presence of non-IOReporter instances will cause this function to return kIOReturnBadArgument. If any reporter returns an error, the function will immediately return that error. Per the IOReporter::configureReport() documentation, each reporter will search channelList for channels it is reporting and provide a partial response. */ static IOReturn updateAllReports(OSSet *reporters, IOReportChannelList *channelList, IOReportConfigureAction action, void *result, void *destination); // FIXME: just put the function (inline-ish) here? /* Protected (subclass-only) Methods General subclassing is not encouraged as we intend to improve internal interfaces. If you need something that might require a subclass, please file a bug against IOReporting/X and we will help you. One important concept for sub-classes (not clients) is that report data is stored in IOReportElement structures (see IOReportTypes.h). */ protected: /*! @function IOReporter::lockReporterConfig @function IOReporter::unlockReporterConfig @abstract prevent concurrent reconfiguration of a reporter @discussion lockReporterConfig() takes a mutex-based lock intended to prevent concurrent access to the reporter's configuration. It is not intended to prevent updates to the reporter's data. As long as all other requirements are met, it is safe to simultaneously hold both the configuration and data locks on a single reporter. lockReporterConfig() is used by routines such as addChannel(). See also lockReporter() and ::handle*Swap*() below. */ void lockReporterConfig(void); void unlockReporterConfig(void); /*! @function IOReporter::lockReporter @function IOReporter::unlockReporter @abstract prevent concurrent access to a reporter's data @discussion This method grabs a lock intended to control access the reporter's reporting data. Sub-classes maninupating internal report values must make sure the reporter is locked (usually by the most generic public interface) before calling getElementValues(), copyElementValues(), or setElementValues(). Subclasses should ensure that this lock is taken exactly once before directly accessing reporter data. For example, [virtual] IOFooReporter::handleSetFoo(.) { // assert(lock_held) getElementValues(1..) getElementValues(3..) getElementValues(5..) [calculate] setElementValues(6..) } IOFooReporter::setFoo(.) { // not virtual lockReporter() handleSetFoo(.) unlockReporter() } IOReporter::handle*() use lockReporter() similarly. For example, the lock is taken by IOReporter::updateReport() and is already held by the time any ::updateChannelValues() methods are called. Subclasses cannot call this routine if the lock is already held. That's why IOReporting generally only calls it from non-virtual public methods. In particular, this method should not be called it from ::handle*() methods which exist to allow override after the lock is taken. Because lockReporter() uses a spin lock, it is SAFE to use in the interrupt context. For the same reason, however, it is UNSAFE to perform any blocking blocking operations (including memory allocations) while holding this lock. */ void lockReporter(void); void unlockReporter(void); /*! @discussion The ::handle*Swap* functions allow subclasses to safely reconfigure their internal state. A non-virtual function handles locking and invokes the functions in order: - lockReporterConfig() // protecting instance vars but not content - prepare / allocate buffers of the new size - if error, bail (unlocking, of course) - lockReporter() // protecting data / blocking updates - swap: preserve continuing data / install new buffers - unlockReporter() - deallocate now-unused buffers - unlockReporterConfig() */ /*! @function IOReporter::handleSwapPrepare @abstract allocate memory in preparation for an instance variable swap @param newNChannels target number of channels @result IOReturn code @discussion ::handleSwapPrepare() is responsible for allocating appropriately- sized buffers (based on the new number of channels) and storing them in _swap* instance variables. If returning and error, it must deallocate any buffers and set to NULL any _swap* variables. Locking: The caller must ensure that the *config* lock is HELD but that the reporter (data) lock is *NOT HELD*. */ virtual IOReturn handleSwapPrepare(int newNChannels); /*! @function IOReporter::handleAddChannelSwap @abstract update primary instance variables with new buffers @param channelID ID of channel being added @param channelName optional channel name, in an allocated object @result IOReturn code @discussion handlAddChannelSwap() replaces the primary instance variables with buffers allocated in handlePrepareSwap(). It copies the the existing data into the appropriate portion of the new buffers. Because it is specific to adding one channel, it assumes that the target number of channels is one greater than the current value of _nChannels. IOReporter::handleAddChannelSwap() increments _nElements and _nChannels. To ensure that these variables describe the current buffers throughout ::handle*Swap(), subclasses overriding this method should call super::handleAddChannelSwap() after swapping their own instance variables. If returning an error, all implementations should leave their instance variables as they found them (*unswapped*). That ensures handleSwapCleanup() cleans up the unused buffers regardless of whether the swap was complete. Pseudo-code incorporating these suggestions: res = ; swapComplete = false; if () goto finish tmpBuf = _primaryBuf; _primaryBuf = _swapBuf; _swapBuf = _primaryBuf; ... swapComplete = true; res = super::handle*Swap() ... finish: if (res && swapComplete) // unswap Locking: The caller must ensure that BOTH the configuration and reporter (data) locks are HELD. */ virtual IOReturn handleAddChannelSwap(uint64_t channel_id, const OSSymbol *symChannelName); /*! @function IOReporter::handleSwapCleanup @abstract release and forget unused buffers @param swapNChannels channel-relative size of the _swap buffers @discussion ::handleSwapCleanup() is responsible for deallocating the buffers no longer used after a swap. It must always be called if SwapPrepare() completes successfully. Because bufers may be swapped in and out of existance, the _swap* variables may be NULL and should be set to NULL when complete. Locking: The caller must ensure that the *config* lock is HELD but that the reporter (data) lock is *NOT HELD*. */ virtual void handleSwapCleanup(int swapNChannels); /*! @function IOReporter::handleConfigureReport @abstract override vector for IOReporter::configureReport() [parameters and result should exactly match] @discussion The public base class method takes the reporter lock, calls this function, and then drops the lock. Subclasses should not call this function directly. */ virtual IOReturn handleConfigureReport(IOReportChannelList *channelList, IOReportConfigureAction action, void *result, void *destination); /*! @function IOReporter::handleUpdateReport @abstract override vector for IOReporter::updateReport() [parameters and result should exactly match] @discussion The public base class method takes the reporter lock, calls this function, and then drops the lock. Subclasses should not call this function directly. This function may be overriden but the common case should be to simply update reporter's specific values by overriding IOReporter::updateChannelValues(). */ virtual IOReturn handleUpdateReport(IOReportChannelList *channelList, IOReportConfigureAction action, void *result, void *destination); /* @function IOReporter::handleCreateLegend @abstract override vector for IOReporter::createLegend() [parameters and result should exactly match] @discussion The public base class method takes the reporter lock, calls this function, and then drops the lock. Subclasses should not call this function directly. */ virtual IOReportLegendEntry* handleCreateLegend(void); /*! @function IOReporter::updateChannelValues @abstract update channel values for IOReporter::updateReport() @param channel_index - logical (internal) index of the channel @result appropriate IOReturn code @discussion Internal reporter method to allow a subclass to update channel data when updateReport() is called. This routine handles the common case of a subclass needing to refresh state in response to IOReporter::updateReport(). It saves the complexity of parsing the full parameters to IOReporter::updateReport(). The IOReporter base class implementation does not do anything except return success. Locking: IOReporter::updateReport() takes the reporter lock, determines the indices involved, calls this function, and then proceeds to provide values to the caller. If subclasses need to call this routine directly, they must ensure that the reporter (data) lock is held: see IOReporter::lockReporter(). */ virtual IOReturn updateChannelValues(int channel_index); /*! @function IOReporter::updateReportChannel @abstract Internal method to extract channel data to a destination @param channel_index - offset into internal elements array @param nElements - incremented by the number of IOReportElements added @param destination - pointer to the destination buffer @result IOReturn code @discussion updateReportChannel() is used to extract a single channel's data to the updateReport() destination. Locking: Caller must ensure that the reporter (data) lock is held. */ IOReturn updateReportChannel(int channel_index, int *nElements, IOBufferMemoryDescriptor *destination); /*! @function IOReporter::setElementValues @abstract Atomically update a specific member of _elements[]. @param element_index - index of the _element in internal array @param values - IORepoterElementValues to replace those at _elements[idx] @param record_time - optional mach_absolute_time to be used for metadata @result IOReturn code @discussion element_index can be obtained from getFirstElementIndex(). If record_time is not provided, IOReporter::setElementValues() will fetch the current mach_absolute_time. If the current time is already known, it is more efficient to pass it along. Locking: Caller must ensure that the reporter (data) lock is held. */ virtual IOReturn setElementValues(int element_index, IOReportElementValues *values, uint64_t record_time = 0); /*! @function IOReporter::getElementValues @abstract Internal method to directly access the values of an element @param element_index - index of the _element in internal array @result A pointer to the element values requested or NULL on failure @discussion Locking: Caller must ensure that the reporter (data) lock is held. The returned pointer is only valid until unlockReporter() is called. */ virtual const IOReportElementValues* getElementValues(int element_index); /*! @function IOReporter::getFirstElementIndex @abstract Returns the first element index for a channel @param channel_id - ID of the channel @param element_index - pointer to the returned element_index @result appropriate IOReturn code @discussion For efficiently and thread-safely reading _elements Locking: Caller must ensure that the reporter (data) lock is held. */ virtual IOReturn getFirstElementIndex(uint64_t channel_id, int *element_index); /*! @function IOReporter::getChannelIndex @abstract Returns the index of a channel from internal data structures @param channel_id - ID of the channel @param element_index - pointer to the returned element_index @result appropriate IOReturn code @discussion For efficiently and thread-safely reading channels Locking: Caller must ensure that the reporter (data) lock is held. */ virtual IOReturn getChannelIndex(uint64_t channel_id, int *channel_index); /*! @function IOReporter::getChannelIndices @abstract Returns the index of a channel and its corresponding first element index from internal data structure @param channel_id - ID of the channel @param channel_index - pointer to the returned channel_index @param element_index - pointer to the returned element_index @result appropriate IOReturn code @discussion For efficiently and thread-safely reading channel elements. It is commonly useful to get access to both channel and element indices togther. This convenience method allows sub-classes to get both indices simultaneously. Locking: Caller must ensure that the reporter (data) lock is held. */ virtual IOReturn getChannelIndices(uint64_t channel_id, int *channel_index, int *element_index); /*! @function IOReporter::copyElementValues @abstract Copies the values of an internal element to *elementValues @param element_index - Index of the element to return values from @param elementValues - For returning the content of element values @result Returns the content of an element @discussion For efficiently and thread-safely reading _elements. May need to find the index of the element first. Locking: Caller must ensure that the reporter (data) lock is held. */ virtual IOReturn copyElementValues(int element_index, IOReportElementValues *elementValues); // private methods private: /*! @function IOReporter::copyChannelIDs @abstract return an an OSArray of the reporter's channel IDs @param none @result An OSArray of the repoter's channel ID's as OSNumbers @discussion This method is an internal helper function used to prepare a legend entry. It encapsulates the channel IDs in OSNumbers and aggregates them in an OSArray used when building the IOReportLegend Locking: Caller must ensure that the reporter (data) lock is held. */ OSArray* copyChannelIDs(void); /*! @function IOReporter::legendWith @abstract Internal method to help create legend entries @param channelIDs - OSArray of OSNumber(uint64_t) channels IDs. @param channelNames - parrallel OSArray of OSSymbol(rich names) @param channelType - the type of all channels in this legend @param unit - The unit for the quantity recorded by this reporter object @result An IOReportLegendEntry object or NULL on failure @discussion This static method is the main legend creation function. It is called by IOReporter sub-classes and is responsible for building an IOReportLegendEntry corresponding to this reporter object. This legend entry may be extended by the sub-class of IOReporter if required. Locking: SAFE to call concurrently (no static globals), MAY BLOCK */ static IOReportLegendEntry* legendWith(OSArray *channelIDs, OSArray *channelNames, IOReportChannelType channelType, IOReportUnits unit); // protected instance variables (want to get rid of these) protected: IOReportChannelType _channelType; uint64_t _driver_id; // driver reporting data // IOHistogramReporter accesses these; need to re-do its instantiation IOReportElement *_elements; int *_enableCounts; // refcount kIOReportEnable/Disable uint16_t _channelDimension; // Max channel size int _nElements; int _nChannels; // Total Channels in this reporter OSArray *_channelNames; // MUST be protected because check is a macro! bool _reporterIsLocked; bool _reporterConfigIsLocked; // Required for swapping inside addChannel IOReportElement *_swapElements; int *_swapEnableCounts; // private instance variables private: IOReportUnits _unit; int _enabled; // 'enabled' if _enabled > 0 IOLock *_configLock; IOInterruptState _interruptState; IOSimpleLock *_reporterLock; }; /************************************/ /***** 3. IOReporter Subclasses *****/ /************************************/ /*! @class IOSimpleReporter @abstract Report simple integers @discussion Each IOSimpleReporter can have an arbitrary number of channels, each publishing a single integer value at any given time. */ class IOSimpleReporter : public IOReporter { OSDeclareDefaultStructors(IOSimpleReporter); public: /*! @function IOSimpleReporter::with @abstract create an initialized simple reporter @param reportingService - IOService associated with all channels @param categories - The category in which the report should be classified @param unit - The unit for the quantity recorded by the reporter object @result On success, an instance of IOSimpleReporter, else NULL @discussion Creates an instance of IOSimpleReporter object Locking: SAFE to call concurrently (no static globals), MAY BLOCK. */ static IOSimpleReporter* with(IOService *reportingService, IOReportCategories categories, IOReportUnits unit); /*! @function IOSimpleReporter::setValue @abstract Thread safely set a channel's value @param channel_id - ID of the channel for which the value needs to be set @param value - New channel value @result Appropriate IOReturn code @discussion Updates the value of a channel to the provided value. Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ IOReturn setValue(uint64_t channel_id, int64_t value); /*! @function IOSimpleReporter::incrementValue @abstract Thread safely increment a channel's value by a given amount @param channel_id - ID of the channel for which the value needs to be incremented @param increment - Amount to be added to the current channel value @result Appropriate IOReturn code @discussion Increments the value of the channel ID by the provided amount. Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ IOReturn incrementValue(uint64_t channel_id, int64_t increment); /*! @function IOSimpleReporter::getValue @abstract Thread safely access a channel value @param channel_id - ID of the channel to get a value from @result Returns the current value stored in the channel @discussion Accessor method to a channel's current stored value Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ int64_t getValue(uint64_t channel_id); protected: /*! @function IOSimpleReporter::initWith @abstract instance method implementation called by IOSimpleReporter::with @discussion See description of parameters above Locking: same-instance concurrency UNSAFE */ virtual bool initWith(IOService *reportingService, IOReportCategories categories, IOReportUnits unit); private: }; /*! @class IOStateReporter @abstract Report state machine data @discussion Each IOStateReporter can report information for an arbitrary number of similar state machines. All must have the same number of states. */ class IOStateReporter : public IOReporter { OSDeclareDefaultStructors(IOStateReporter); public: /*! @function IOStateReporter::with @abstract State reporter static creation method @param reportingService - The I/O Kit service for this reporter's channels @param categories - The categories for this reporter's channels @param nstates - Maximum number of states for this reporter's channels @param unit - optional parameter if using override/increment...() @result on success, an IOStateReporter instance, else NULL @discussion Creates an instance of IOStateReporter. The default time scale is the current system's notion of mach_absolute_time(). Using a non-default time scale requires the use of override/incrementChannelState() instead of setState(). setState() always updates using mach_absolute_time(). Locking: SAFE to call concurrently (no static globals), MAY BLOCK */ static IOStateReporter* with(IOService *reportingService, IOReportCategories categories, int nstates, IOReportUnits unit = kIOReportUnitHWTicks); /*! @function IOStateReporter::setStateID @abstract Assign a non-default ID to a state @param channel_id - ID of channel containing the state in question @param state_index - index of state to give an ID: [0..(nstates-1)] @param state_id - 64-bit state ID, for ASCII, use IOREPORT_MAKEID @result Appropriate IOReturn code @discussion By default, IOStateReporter identifies its channel states by numbering them from 0 to . If setStateID is not called to customize the state IDs, the numbered states will be kept throughout the life of the object and it is safe to reference those states by their indices. Otherwise, after setStateID() has been called, the ordering of states is no longer guaranteed and the client must reference states by their assigned state ID. Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ IOReturn setStateID(uint64_t channel_id, int state_index, uint64_t state_id); /*! @function IOStateReporter::setChannelState @abstract Updates the current state of a channel to a new state @param channel_id - ID of the channel which is updated to a new state @param new_state_id - ID of the target state for this channel @param last_intransition - deprecated: time of most recent entry @param prev_state_residency - deprecated: time spent in previous state @result Appropriate IOReturn code @discussion setChannelState() updates the amount of time spent in the previous state (if any) and increments the number of transitions into the new state. It also sets the target state's last transition time to the current time and enables internal time-keeping for the channel. In this mode, calls like getStateResidencyTime() and updateReport() automatically update a channel's time in state. new_state_id identifies the target state as initialized (0..) or as configured by setStateID(). Drivers wishing to compute and report their own time in state should use incrementChannelState() or overrideChannelState(). It is not currently possible for a driver to synchronize with the automatic time-keeping enabled by setChannelState(). The 4-argument version of setChannelState() is thus impossible to use correctly. In the future, there may be a setChannelState() which accepts a last_intransition parameter and uses it to automatically calculate time in state (ERs -> IOReporting / X). Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ IOReturn setChannelState(uint64_t channel_id, uint64_t new_state_id); IOReturn setChannelState(uint64_t channel_id, uint64_t new_state_id, uint64_t last_intransition, uint64_t prev_state_residency) __deprecated; /*! @function IOStateReporter::setState @abstract Updates state for single channel reporters @param new_state_id - New state for the channel @param last_intransition - deprecated: time of most recent entry @param prev_state_residency - deprecated: spent in previous state @result Appropriate IOReturn code. @discussion setState() is a convenience method for single-channel state reporter instances. An error will be returned if the reporter in question has more than one channel. See further discussion at setChannelState(). Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ IOReturn setState(uint64_t new_state_id); IOReturn setState(uint64_t new_state_id, uint64_t last_intransition, uint64_t prev_state_residency) __deprecated; /*! @function IOStateReporter::overrideChannelState @abstract Overrides state data for a channel with passed arguments @param channel_id - ID of the channel which state is to be updated @param state_id - state id for the channel @param time_in_state - time used as new total time in state @param intransitions - total number of transitions into state @param last_intransition - mach_absolute_time of most recent entry (opt) @result Appropriate IOReturn code @discussion overrideChannelState() sets a particular state's time in state and transition count to the values provided. The optional last_intransition records the last time the channel transitioned into the given state. Passing 0 for time_in_state and intransitions will force the current values to 0. Passing 0 for last_intransition for all states will disable the notion of a channel's "current state." The most recent last_intransition (amongst all states in a channel) logically determines the current state. If last_intransition is not provided for any state, the channel will not report a current For consistent results, it is important to either never specify last_intransition or to always specify it. There is currently a bug in determining current state (13423273). The IOReportMacros.h macros only update the state's metadata timestamp and libIOReport only looks at the metadata timestamps to determine the current state. Until that bug is fixed, whichever state is updated most recently will be considered the "current" state by libIOReport. ::setState()'s automatic "time in state" updates are not supported when using overrideChannelState(). Clients must not use overrideChannelState() on any channel that has ::setState() called on it. Unlike with ::setState(), clients using overrideChannelState() are responsible for ensuring that data is up to date for updateReport() calls. The correct way to do this is for a driver's ::updateReport() method to push the most up to date values into the reporters before calling super::updateReport(). Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ IOReturn overrideChannelState(uint64_t channel_id, uint64_t state_id, uint64_t time_in_state, uint64_t intransitions, uint64_t last_intransition = 0); /*! @function IOStateReporter::incrementChannelState @abstract Updates state data for a channel with passed arguments @param channel_id - ID of the channel which state is to be updated @param state_id - state id for the channel @param time_in_state - time to be accumulated for time in state @param intransitions - number of transitions into state to be added @param last_intransition - mach_absolute_time of most recent entry (opt) @result Appropriate IOReturn code @discussion incrementChannelState() adds time_in_state and intransitions to the current values stored for a particular state. If provided, last_intransition overwrites the time the state was most recently entered. Passing 0 for time_in_state and intransitions will have no effect. Passing 0 for last_intransition for all states will disable the notion of a channel's "current state." The most recent last_intransition (amongst all states in a channel) logically determines the current state. If last_intransition is not provided for any state, the channel will not report a current For consistent results, it is important to either never specify last_intransition or to always specify it. There is currently a bug in determining current state (13423273). The IOReportMacros.h macros only update the state's metadata timestamp and libIOReport only looks at the metadata timestamps to determine the current state. Until that bug is fixed, whichever state is updated most recently will be considered the "current" state by libIOReport. ::setState()'s automatic "time in state" updates are not supported when using incrementChannelState(). Clients must not use incrementChannelState() on any channel that has ::setState() called on it. Unlike with ::setState(), clients using incrementChannelState() are responsible for ensuring that data is up to date for updateReport() calls. The correct way to do this is for a driver's ::updateReport() method to push the most up to date values into the reporters before calling super::updateReport(). Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ IOReturn incrementChannelState(uint64_t channel_id, uint64_t state_id, uint64_t time_in_state, uint64_t intransitions, uint64_t last_intransition = 0); /*! @function IOStateReporter::setStateByIndices @abstract update a channel state without validating channel_id @param channel_index - 0.., available from getChannelIndex() @param new_state - New state (by index) for the channel @param last_intransition - deprecated: time of most recent entry @param prev_state_residency - deprecated: time spent in previous state @result Appropriate IOReturn code @discussion Similar to setState(), setStateByIndices() sets a channel's state without searching for the channel or state IDs. It will perform bounds checking, but relies on the caller to properly indicate the indices of the channel and state. Clients can rely on channels being added to IOStateReporter in order: the first channel will have index 0, the second index 1, etc. Like ::setState(), "time in state" calculations are handled automatically. setStateByIndices() is faster than than setChannelState(), but it should only be used where the latter's performance overhead might be a problem. For example, many channels in a single reporter and high-frequency state changes. Drivers wishing to compute and report their own time in state should use incrementChannelState() or overrideChannelState(). It is not currently possible for a driver to synchronize with the automatic time-keeping enabled by setStateByIndices(). The 4-argument version of setChannelState() is thus impossible to use correctly. In the future, there may be a setChannelState() which accepts a last_intransition parameter and uses it to automatically calculate time in state (ERs -> IOReporting / X). Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ IOReturn setStateByIndices(int channel_index, int new_state_index); IOReturn setStateByIndices(int channel_index, int new_state_index, uint64_t last_intransition, uint64_t prev_state_residency) __deprecated; /*! @function IOStateReporter::getStateInTransitions @abstract Accessor method for count of transitions into state @param channel_id - ID of the channel @param channel_state - State of the channel @result Count of transitions into the requested state. @discussion Some clients may need to consume internally the data aggregated by the reporter object. This method allows a client to retrieve the count of transitions into the requested state for the channel_id. Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ uint64_t getStateInTransitions(uint64_t channel_id, uint64_t state_id); /*! @function IOStateReporter::getStateResidencyTime @abstract Accessor method for time spent in a given state @param channel_id - ID of the channel @param channel_state - State of the channel @result Absolute time spent in specified state @discussion Some clients may need to consume internally the data aggregated by the by the reporter object. This method allows a client to retrieve the absolute time a particular channel recorded as spent in a specified state. Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ uint64_t getStateResidencyTime(uint64_t channel_id, uint64_t state_id); /*! @function IOStateReporter::getStateLastTransitionTime @abstract Accessor method for last time a transition occured @param channel_id - ID of the channel @param channel_state - State of the channel @result Absolute time for when the last transition occured @discussion Some clients may need to consume internally the data aggregated by the by the reporter object. This method allows a client to retrieve the absolute time stamp for when the last transition into a specific state was recorded. Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ uint64_t getStateLastTransitionTime(uint64_t channel_id, uint64_t state_id); /*! @function [DEPRECATED] IOStateReporter::getStateLastChannelUpdateTime @abstract Deprecated accessor for last time a channel was auto-updated @param channel_id - ID of the channel @result Absolute time for last time the channel was updated @discussion If a channel has had ::setState() called on it, calls such as getStateResidencyTime() or updateReport() will update time in the current state and update an internal "last channel update time." Because clients have no way to interlock with those methods, there is no sensible way to use this method and it will be removed in a future release. Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ uint64_t getStateLastChannelUpdateTime(uint64_t channel_id) __deprecated; /*! @function IOStateReporter::free @abstract Releases the object and all its resources. @discussion ::free() assumes that init() has completed. Clients should use the static ::with() methods to obtain fully-initialized reporter instances. Locking: same-instance concurrency UNSAFE */ virtual void free(void); protected: /*! @function IOStateReporter::initWith @abstract Instance method implementation called by ::with @discussion See description of parameters above */ virtual bool initWith(IOService *reportingService, IOReportCategories categories, int16_t nstates, IOReportUnits unit); /*! @function IOStateReporter::handleSwapPrepare @abstract _swap* = @function IOStateReporter::handleAddChannelSwap @abstract swap in IOStateReporter's variables @function IOStateReporter::handleSwapCleanup @abstract clean up unused buffers in _swap* [see IOReporter::handle*Swap* for more info] */ virtual IOReturn handleSwapPrepare(int newNChannels); virtual IOReturn handleAddChannelSwap(uint64_t channel_id, const OSSymbol *symChannelName); virtual void handleSwapCleanup(int swapNChannels); /*! @function IOStateReporter::updateChannelValues @abstract Update accounting of time spent in current state @param channel_index - internal index of the channel @result appropriate IOReturn code @discussion Internal State reporter method to account for the time spent in the current state when updateReport() is called on the reporter's channels. Locking: Caller must ensure that the reporter (data) lock is held. */ virtual IOReturn updateChannelValues(int channel_index); /*! @function IOStateReporter::setStateByIndices @abstract update a channel state without validating channel_id @param channel_index - 0.., available from getChannelIndex() @param new_state - New state for the channel @param last_intransition - to remove: time of most recent entry @param prev_state_residency - to remove: time spent in previous state @result Appropriate IOReturn code @discussion Locked version of IOReporter::setStateByIndices(). This method may be overriden by sub-classes. Locking: Caller must ensure that the reporter (data) lock is held. */ virtual IOReturn handleSetStateByIndices(int channel_index, int new_state_index, uint64_t last_intransition, uint64_t prev_state_residency); /*! @function IOStateReporter::setStateID @abstract Assign a non-default ID to a state @param channel_id - ID of channel containing the state in question @param state_index - index of state to give an ID: [0..(nstates-1)] @param state_id - 64-bit state ID, for ASCII, use IOREPORT_MAKEID @result Appropriate IOReturn code @discussion Locked version of IOReporter::setStateID(). This method may be overriden by sub-classes Locking: Caller must ensure that the reporter (data) lock is held. */ virtual IOReturn handleSetStateID(uint64_t channel_id, int state_index, uint64_t state_id); /*! @function IOStateReporter::handleOverrideChannelStateByIndices @abstract Overrides state data for a channel with passed arguments @param channel_index - index of the channel which state is to be updated @param state_index - index of the state id for the channel @param time_in_state - time used as new total time in state @param intransitions - total number of transitions into state @param last_intransition - mach_absolute_time of most recent entry (opt) @result Appropriate IOReturn code @discussion Locked version of IOReporter::overrideChannelState(). This method may be overriden by sub-classes. Locking: Caller must ensure that the reporter (data) lock is held. */ virtual IOReturn handleOverrideChannelStateByIndices(int channel_index, int state_index, uint64_t time_in_state, uint64_t intransitions, uint64_t last_intransition = 0); /*! @function IOStateReporter::handleIncrementChannelStateByIndices @abstract Updates state data for a channel with passed arguments @param channel_index - index of the channel which state is to be updated @param state_index - index of the state id for the channel @param time_in_state - time used as new total time in state @param intransitions - total number of transitions into state @param last_intransition - mach_absolute_time of most recent entry (opt) @result Appropriate IOReturn code @discussion Locked version of IOReporter::incrementChannelState(). This method may be overriden by sub-classes. Locking: Caller must ensure that the reporter (data) lock is held. */ virtual IOReturn handleIncrementChannelStateByIndices(int channel_index, int state_index, uint64_t time_in_state, uint64_t intransitions, uint64_t last_intransition = 0); private: int *_currentStates; // current states (per chonnel) uint64_t *_lastUpdateTimes; // most recent auto-update // Required for swapping inside addChannel int *_swapCurrentStates; uint64_t *_swapLastUpdateTimes; enum valueSelector { kInTransitions, kResidencyTime, kLastTransitionTime }; uint64_t _getStateValue(uint64_t channel_id, uint64_t state_id, enum valueSelector value); IOReturn _getStateIndices(uint64_t channel_id, uint64_t state_id, int *channel_index, int *state_index); }; /*! @class IOHistogramReporter @abstract Report histograms of values @discussion Each IOHistogramReporter can report one histogram representing how a given value has changed over time. */ class IOHistogramReporter : public IOReporter { OSDeclareDefaultStructors(IOHistogramReporter); public: /*! @function IOHistogramReporter::with @abstract Initializes the IOHistogramReporter instance variables and data structures @param reportingService - IOService instanciator and data provider into the reporter object @param categories - The categories in which the report should be classified @param channelID - uint64_t channel identifier @param channelName - rich channel name as char* @param unit - The unit for the quantity recorded by the reporter object @param nSegments - Number of segments to be extracted from the config data structure @param config - Histograms require the caller to pass a configuration by segments @result an instance of the IOSimpleReporter object or NULL on error @discussion Creates an instance of histogram reporter object. FIXME: need more explanation of the config IOHistogramReporter currently only supports a single channel. */ static IOHistogramReporter* with(IOService *reportingService, IOReportCategories categories, uint64_t channelID, const char *channelName, IOReportUnits unit, int nSegments, IOHistogramSegmentConfig *config); /*! @function IOHistogramReporter::addChannel @abstract Override IOReporter::addChannel(*) to return an error @result kIOReturnUnsupported - doesn't support adding channels */ IOReturn addChannel(uint64_t channelID, const char *channelName = NULL) { return kIOReturnUnsupported; } /*! @function IOHistogramReporter::tallyValue @abstract Add a new value to the histogram @param value - new value to add to the histogram @result the index of the affected bucket, or -1 on error @discussion The histogram reporter determines in which bucket the value falls and increments it. The lowest and highest buckets extend to negative and positive infinity, respectively. Locking: same-instance concurrency SAFE, WILL NOT BLOCK */ int tallyValue(int64_t value); /*! @function IOHistogramReporter::free @abstract Releases the object and all its resources. @discussion ::free() assumes that init() has completed. Clients should use the static ::with() methods to obtain fully-initialized reporter instances. Locking: same-instance concurrency UNSAFE */ virtual void free(void); protected: /*! @function IOHistogramReporter::initWith @abstract instance method implementation called by ::with @discussion See description of parameters above */ virtual bool initWith(IOService *reportingService, IOReportCategories categories, uint64_t channelID, const OSSymbol *channelName, IOReportUnits unit, int nSegments, IOHistogramSegmentConfig *config); /*! @function IOHistogramReporter::handleCreateLegend @abstract Builds an IOReporting legend entry representing the channels of this reporter. @result An IOReportLegendEntry or NULL on failure @discussion The returned legend entry may be appended to kIOReportLegendKey to be published by the caller in the IORegistry. See the IOReportLegend class for more details. Locking: same-instance concurrency SAFE, MAY BLOCK */ IOReportLegendEntry* handleCreateLegend(void); private: int _segmentCount; int64_t *_bucketBounds; int _bucketCount; IOHistogramSegmentConfig *_histogramSegmentsConfig; }; /***********************************/ /***** 4. IOReportLegend Class *****/ /***********************************/ /*! @class IOReportLegend @abstract combine legend entries into a complete legend @discussion IOReportLegend adds metadata to legend entries and combines them into a single OSArray that can be published under the kIOReportLegendKey property in the I/O Kit registry. */ class IOReportLegend : public OSObject { OSDeclareDefaultStructors(IOReportLegend); public: /*! @function IOReportLegend::with @abstract Create an instance of IOReportLegend @param legend - OSArray of the legend possibly already present in registry @result an instance of IOReportLegend, or NULL on failure @discussion An IOReporting legend (an OSArray of legend entries) may be already present in the IORegistry. Thus the recommended way to publish new entries is to append to any existing array as follows: 1. call getProperty(kIOReportLegendKey) to get an existing legend. 2a. If it exists - OSDynamicCast to OSArray - and pass it to ::with() IOReportLegend *legendMaker = IOReportLegend::with(legend); The provided array is retained by IOReportLegend. 2b. If no legend already exists in the registry, pass NULL IOReportLegend *legend = IOReportLegend::with(NULL); This latter invocation will cause IOReportLegend to create a new array internally (also holding one reference). At the cost of some registry churn, the static IOReportLegend::addReporterLegend() will handle the above, removing the need for any direct use of the IOReportLegend class. */ static IOReportLegend* with(OSArray *legend); /*! @function IOReportLegend::addLegendEntry @abstract Add a new legend entry @param legendEntry - entry to be added to the internal legend array @param groupName - primary group name for this entry @param subGroupName - secondary group name for this entry @result appropriate IOReturn code @discussion The entry will be retained as an element of the internal array. Legend entries are available from reporter objects. Entries represent some number of channels with similar properties (such as group and sub-group). Multiple legend entries with the same group names will be aggregated in user space. Drivers that instantiate their reporter objects in response to IOService::configureReport(kIOReportDisable) will need to create temporary reporter objects for the purpose of creating their legend entries. User-space legends are tracked by 12836893. */ IOReturn addLegendEntry(IOReportLegendEntry *legendEntry, const char *groupName, const char *subGroupName); /*! @function IOReportLegend::addReporterLegend @abstract Add a legend entry from a reporter object @param reportingService - IOService data provider into the reporter object @param reporter - IOReporter to use to extract and append the legend @param groupName - primary group name for this entry @param subGroupName - secondary group name for this entry @result appropriate IOReturn code @discussion An IOReportLegendEntry will be created internally to this method from the IOReporter object passed in argument. The entry will be released internally after being appended to the IOReportLegend object. Legend entries are available from reporter objects. Entries represent some number of channels with similar properties (such as group and sub-group). Multiple legend entries with the same group names will be aggregated in user space. Drivers that instantiate their reporter objects in response to IOService::configureReport(kIOReportDisable) will need to create temporary reporter objects for the purpose of creating their legend entries. User-space legends are tracked by 12836893. The static version of addReporterLegend adds the reporter's legend directly to reportingService's kIOReportLegendKey. This will result in serialized getProperty() and setProperty() calls on reportingService and should be avoided when many reporters objects are in use. */ IOReturn addReporterLegend(IOReporter *reporter, const char *groupName, const char *subGroupName); static IOReturn addReporterLegend(IOService *reportingService, IOReporter *reporter, const char *groupName, const char *subGroupName); /*! @function IOReportLegend::getLegend @abstract Accessor method to get the legend array @result Returns the OSObject holding the legend to be published by the driver @discussion This array will include all legend entries added to the object. */ OSArray* getLegend(void); /*! @function IOReportLegend::free @abstract Frees the IOReportLegend object @discussion ::free() cleans up the reporter and anything it allocated. ::free() releases the internal array (which was either passed to ::with() or created as a result of ::with(NULL)). Assuming the caller extracted the array with getLegend() and published it in the I/O Kit registry, its ownership will now be with the registry. */ void free(void); protected: private: OSArray *_reportLegend; IOReturn initWith(OSArray *legend); /*! @function IOReportLegend::organizeLegend @abstract Sets up the legend entry, organizing it with group and sub-group names @param groupName - Primary group name @param subGroupName - Secondary group name @result IOReturn code @discussion */ IOReturn organizeLegend(IOReportLegendEntry *legendEntry, const OSSymbol *groupName, const OSSymbol *subGroupName); // FUTURE POSSIBILITY (NOT IMPLEMENTED!) /*! @function IOReportLegend::createReporters @abstract Creates as many IOReporter objects as the legend contains @param legend - OSArray legend object containing the description of all reporters the driver is able to address @param reporter - OSSet of reporter objects created by this call @result IOReturn code kIOReturnSuccess if successful @discussion NOT SUPPORTED at the time of writing Convenience method to create all the driver's reporter objects from a legend. Can be used when a legend is made public through the IORegistry but IOReporter objects have not yet been created to save memory, waiting for observers. Upon a call to configureReport via the IOService method, a driver could create all reporter objects on the fly using this function. */ // For Future IOReporterManager... // static IOReturn createReporters(requestedChannels, legend); }; #endif /* ! _IOKERNEL_REPORTERS_H_ */