// Copyright 2014 The Crashpad Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. #ifndef CRASHPAD_SNAPSHOT_SYSTEM_SNAPSHOT_H_ #define CRASHPAD_SNAPSHOT_SYSTEM_SNAPSHOT_H_ #include #include #include #include "snapshot/cpu_architecture.h" namespace crashpad { //! \brief An abstract interface to a snapshot representing the state of a //! system, comprising an operating system, CPU architecture, and various //! other characteristics. class SystemSnapshot { public: virtual ~SystemSnapshot() {} //! \brief A system’s operating system family. enum OperatingSystem { //! \brief The snapshot system’s operating system is unknown. kOperatingSystemUnknown = 0, //! \brief macOS. kOperatingSystemMacOSX, //! \brief Windows. kOperatingSystemWindows, //! \brief Linux. kOperatingSystemLinux, //! \brief Android. kOperatingSystemAndroid, //! \brief Fuchsia. kOperatingSystemFuchsia, //! \brief iOS. kOperatingSystemIOS, }; //! \brief A system’s daylight saving time status. //! //! The daylight saving time status is taken partially from the system’s //! locale configuration. This determines whether daylight saving time is //! ever observed on the system. If it is, the snapshot’s time //! (ProcessSnapshot::SnapshotTime()) is used to determine whether the system //! was observing daylight saving time at the time of the snapshot. enum DaylightSavingTimeStatus { //! \brief Daylight saving time is never observed on the snapshot system. kDoesNotObserveDaylightSavingTime = 0, //! \brief Daylight saving time is observed on the snapshot system when in //! effect, but standard time was in effect at the time of the snapshot. kObservingStandardTime, //! \brief Daylight saving time is observed on the snapshot system when in //! effect, and daylight saving time was in effect at the time of the //! snapshot. kObservingDaylightSavingTime, }; //! \brief Returns the snapshot system’s CPU architecture. //! //! In some cases, a system may be able to run processes of multiple specific //! architecture types. For example, systems based on 64-bit architectures //! such as x86_64 are often able to run 32-bit code of another architecture //! in the same family, such as 32-bit x86. On these systems, this method will //! return the architecture of the process that the snapshot is associated //! with, provided that the SystemSnapshot object was obtained from //! ProcessSnapshot::System(). This renders one aspect of this method’s return //! value a process attribute rather than a system attribute, but it’s defined //! here rather than in ProcessSnapshot because the CPU architecture is a //! better conceptual fit for the system abstraction alongside these other //! related methods. virtual CPUArchitecture GetCPUArchitecture() const = 0; //! \brief Returns the snapshot system’s CPU revision. //! //! For x86-family CPUs (including x86_64 and 32-bit x86), this is the CPU //! family, model, and stepping ID values from `cpuid 1` `eax`. The family and //! model values are adjusted to take the extended family and model IDs into //! account. These values are encoded in this method’s return value with the //! family in the high high 16 bits, the model in the next 8 bits, and the //! stepping in the low 8 bits. //! //! \return A CPU architecture-specific value identifying the CPU revision. virtual uint32_t CPURevision() const = 0; //! \brief Returns the total number of CPUs present in the snapshot system. virtual uint8_t CPUCount() const = 0; //! \brief Returns the vendor of the snapshot system’s CPUs. //! //! For x86-family CPUs (including x86_64 and 32-bit x86), this is the CPU //! vendor identification string as encoded in `cpuid 0` `ebx`, `edx`, and //! `ecx`. //! //! \return A string identifying the vendor of the snapshot system’s CPUs. virtual std::string CPUVendor() const = 0; //! \brief Returns frequency information about the snapshot system’s CPUs in //! \a current_hz and \a max_hz. //! //! \param[out] current_hz The snapshot system’s CPU clock frequency in Hz at //! the time of the snapshot. //! \param[out] max_hz The snapshot system’s maximum possible CPU clock //! frequency. virtual void CPUFrequency(uint64_t* current_hz, uint64_t* max_hz) const = 0; //! \brief Returns an x86-family snapshot system’s CPU signature. //! //! This is the family, model, and stepping ID values as encoded in `cpuid 1` //! `eax`. //! //! This method must only be called when GetCPUArchitecture() indicates an //! x86-family CPU architecture (#kCPUArchitectureX86 or //! #kCPUArchitectureX86_64). //! //! \return An x86 family-specific value identifying the CPU signature. virtual uint32_t CPUX86Signature() const = 0; //! \brief Returns an x86-family snapshot system’s CPU features. //! //! This is the feature information as encoded in `cpuid 1` `edx` and `ecx`. //! `edx` is placed in the low half of the return value, and `ecx` is placed //! in the high half. //! //! This method must only be called when GetCPUArchitecture() indicates an //! x86-family CPU architecture (#kCPUArchitectureX86 or //! #kCPUArchitectureX86_64). //! //! \return An x86 family-specific value identifying CPU features. //! //! \sa CPUX86ExtendedFeatures() //! \sa CPUX86Leaf7Features() virtual uint64_t CPUX86Features() const = 0; //! \brief Returns an x86-family snapshot system’s extended CPU features. //! //! This is the extended feature information as encoded in `cpuid 0x80000001` //! `edx` and `ecx`. `edx` is placed in the low half of the return value, and //! `ecx` is placed in the high half. //! //! This method must only be called when GetCPUArchitecture() indicates an //! x86-family CPU architecture (#kCPUArchitectureX86 or //! #kCPUArchitectureX86_64). //! //! \return An x86 family-specific value identifying extended CPU features. //! //! \sa CPUX86Features() //! \sa CPUX86Leaf7Features() virtual uint64_t CPUX86ExtendedFeatures() const = 0; //! \brief Returns an x86-family snapshot system’s “leaf 7” CPU features. //! //! This is the “leaf 7” feature information as encoded in `cpuid 7` `ebx`. If //! `cpuid 7` is not supported by the snapshot CPU, this returns `0`. //! //! This method must only be called when GetCPUArchitecture() indicates an //! x86-family CPU architecture (#kCPUArchitectureX86 or //! #kCPUArchitectureX86_64). //! //! \return An x86 family-specific value identifying “leaf 7” CPU features. //! //! \sa CPUX86Features() //! \sa CPUX86ExtendedFeatures() virtual uint32_t CPUX86Leaf7Features() const = 0; //! \brief Returns an x86-family snapshot system’s CPU’s support for the SSE //! DAZ (“denormals are zeros”) mode. //! //! This determines whether the CPU supports DAZ mode at all, not whether this //! mode is enabled for any particular thread. DAZ mode support is detected by //! examining the DAZ bit in the `mxcsr_mask` field of the floating-point //! context saved by `fxsave`. //! //! This method must only be called when GetCPUArchitecture() indicates an //! x86-family CPU architecture (#kCPUArchitectureX86 or //! #kCPUArchitectureX86_64). //! //! \return `true` if the snapshot system’s CPUs support the SSE DAZ mode, //! `false` if they do not. virtual bool CPUX86SupportsDAZ() const = 0; //! \brief Returns the snapshot system’s operating system family. virtual OperatingSystem GetOperatingSystem() const = 0; //! \brief Returns whether the snapshot system runs a server variant of its //! operating system. virtual bool OSServer() const = 0; //! \brief Returns the snapshot system’s operating system version information //! in \a major, \a minor, \a bugfix, and \a build. //! //! \param[out] major The snapshot system’s operating system’s first (major) //! version number component. This would be `10` for macOS 10.12.1, and //! `6` for Windows 7 (NT 6.1) SP1 version 6.1.7601. //! \param[out] minor The snapshot system’s operating system’s second (minor) //! version number component. This would be `12` for macOS 10.12.1, and //! `1` for Windows 7 (NT 6.1) SP1 version 6.1.7601. //! \param[out] bugfix The snapshot system’s operating system’s third (bugfix) //! version number component. This would be `1` for macOS 10.12.1, and //! `7601` for Windows 7 (NT 6.1) SP1 version 6.1.7601. //! \param[out] build A string further identifying an operating system //! version. For macOS 10.12.1, this would be `"16B2657"`. For Windows, //! this would be `"Service Pack 1"` if that service pack was installed. //! On Android, the `ro.build.fingerprint` system property would be //! appended. For Linux and other Unix-like systems, this would be the //! kernel version from `uname -srvm`, possibly with additional //! information appended. virtual void OSVersion(int* major, int* minor, int* bugfix, std::string* build) const = 0; //! \brief Returns the snapshot system’s full operating system version //! information in string format. //! //! For macOS, the string contains values from the operating system and //! kernel. A macOS 10.12.1 system snapshot would be identified as `"Mac OS //! X 10.12.1 (16B2657); Darwin 16.1.0 Darwin Kernel Version 16.1.0: Wed Oct //! 19 20:31:56 PDT 2016; root:xnu-3789.21.4~4/RELEASE_X86_64 x86_64"`. virtual std::string OSVersionFull() const = 0; //! \brief Returns a description of the snapshot system’s hardware in string //! format. //! //! For macOS, the string contains the Mac model and board ID. A mid-2014 15" //! MacBook Pro would be identified as `"MacBookPro11,3 //! (Mac-2BD1B31983FE1663)"`. virtual std::string MachineDescription() const = 0; //! \brief Returns the status of the NX (no-execute, or XD, execute-disable) //! feature on the snapshot system. //! //! This refers to a feature that allows mapped readable pages to be marked //! as non-executable. //! //! \return `true` if the snapshot system supports NX and it is enabled. virtual bool NXEnabled() const = 0; //! \brief Returns time zone information from the snapshot system, based on //! its locale configuration and real-time clock. //! //! \param[out] dst_status Whether the location observes daylight saving time, //! and if so, whether it or standard time is currently being observed. //! \param[out] standard_offset_seconds The number of seconds that the //! location’s time zone is east (ahead) of UTC during standard time. //! \param[out] daylight_offset_seconds The number of seconds that the //! location’s time zone is east (ahead) of UTC during daylight saving. //! time. //! \param[out] standard_name The name of the time zone while standard time is //! being observed. //! \param[out] daylight_name The name of the time zone while daylight saving //! time is being observed. virtual void TimeZone(DaylightSavingTimeStatus* dst_status, int* standard_offset_seconds, int* daylight_offset_seconds, std::string* standard_name, std::string* daylight_name) const = 0; //! \brief Returns a mask indicating the range of valid addresses for a //! pointer. //! //! ARM64 supports storing pointer authentication codes in the upper bits of //! a pointer. This mask is generated based on the number of bits in a pointer //! reserved for the authentication codes. To recover an address from pointer //! with an authentication code, `AND` this mask with the pointer. If the pac //! sign extension bit is set, instead `~` and `OR` this mask with the //! pointer. //! //! If the platform does not support pointer authentication, or the range of //! valid addressees for a pointer was inaccessible, this field will be 0. virtual uint64_t AddressMask() const = 0; }; } // namespace crashpad #endif // CRASHPAD_SNAPSHOT_SYSTEM_SNAPSHOT_H_