zircon/kernel/include/platform/crashlog.h - fuchsia - Git at Google

 // Copyright 2020 The Fuchsia Authors
 //
 // Use of this source code is governed by a MIT-style
 // license that can be found in the LICENSE file or at
 // https://opensource.org/licenses/MIT

 #ifndef ZIRCON_KERNEL_INCLUDE_PLATFORM_CRASHLOG_H_
 #define ZIRCON_KERNEL_INCLUDE_PLATFORM_CRASHLOG_H_

 #include <stdio.h>
 #include <sys/types.h>
 #include <zircon/boot/crash-reason.h>
 #include <zircon/compiler.h>
 #include <zircon/types.h>

 #include <ktl/atomic.h>
 #include <ktl/span.h>

 class PlatformCrashlog {
  public:
   // This is common interface definition for specific implementations of crashlog support.
   // Depending on the platform, and the resources provided to it, users will end up with
   //
   // 1) A RAM mappable crashlog implementation, where the crashlog RAM is mapped
   //    directly accessible by the CPUs from a mapped virtual address.
   // 2) An EFI capsule based implementation, where crashlogs get stored in an
   //    EFI capsule during a non-spontaneous crash.
   // 3) A trivial, no-op implementation, because the kernel was not provided any
   //    way to store data which could survive a reboot.
   //
   // Generally speaking, the underlying implementation are not multi-thread
   // safe, and users should take care to never do something like having multiple
   // threads calling into Finalize at the same time.
   class Interface {
    public:
     // Returns a span which points to the region which the kernel should render
     // a crashlog payload to during a non-spontaneous crash.
     virtual ktl::span<char> GetRenderTarget() = 0;

     // Finalize a crashlog just before triggering a reboot.  |reason| is the SW
     // reboot reason which will be stored in the crashlog header, while |amt| is
     // the amount of the render target (see |GetRenderTarget|) which was filled
     // before calling finalize.
     virtual void Finalize(zircon_crash_reason_t reason, size_t amt) = 0;

     // Attempt to recover any crashlog from platform specific storage, writing
     // the results to |tgt|.  Returns the number of bytes written to |tgt| in
     // the process.  Users may pass nullptr to |tgt| if they wish to simply
     // measure the size of the crashlog to be recovered.
     virtual size_t Recover(FILE* tgt) = 0;

     // Enable periodic updates of the uptime estimate in the crashlog header.
     // This allows systems with directly mappable crashlog RAM to constantly be
     // stashing a valid header with an uptime estimate and a reboot reason of
     // "UNKNOWN" to be recovered in the case of a spontaneous reboot.
     virtual void EnableCrashlogUptimeUpdates(bool enabled) = 0;

    protected:
     // No one should ever be destroying an implementation of the crashlog
     // interface from an Interface* pointer.  Bury the destructor as a
     // protected, non-virtual destructor to prevent anyone from ever
     // accidentally attempting to do so.
     ~Interface() = default;
   };

   // Interface management.
   //
   // By default, there is always a Crashlog implementation available, and a
   // reference to it can be fetched using the |Get| method.  At boot, however,
   // this will be a default trivial implementation which does nothing.  The
   // system may switch away from this interface when it discovers usable
   // non-volatile storage by calling |Bind|, and passing a reference to a
   // specific Crashlog implementation. Note that this implementation must stay
   // alive for the entire life of the kernel.  Once bound to a non-trivial
   // implementation, the interface can no longer be rebound, and any attempts to
   // do so will return an error.
   //
   // Code may check to see if a non-trivial implementation has been bound by
   // calling |HasNonTrivialImpl|.
   static Interface& Get() { return *(interface_.load(ktl::memory_order_acquire)); }

   static bool HasNonTrivialImpl() {
     return interface_.load(ktl::memory_order_acquire) != &trivial_impl_;
   }

   static zx_status_t Bind(Interface& impl) {
     Interface* expected = &trivial_impl_;
     return interface_.compare_exchange_strong(expected, &impl, ktl::memory_order_acq_rel)
                ? ZX_OK
                : ZX_ERR_ALREADY_BOUND;
   }

  private:
   class TrivialImpl : public Interface {
    public:
     constexpr TrivialImpl() = default;
     ~TrivialImpl() = default;

     ktl::span<char> GetRenderTarget() final { return {}; }
     void Finalize(zircon_crash_reason_t reason, size_t amt) final {}
     size_t Recover(FILE* tgt) final { return 0; }
     void EnableCrashlogUptimeUpdates(bool enabled) final {}
   };

   // No one should be creating or destroying any PlatformCrashlog instances.
   // Everything should be going through a PlatformCrashlog::Interface instead.
   PlatformCrashlog() = default;
   ~PlatformCrashlog() = default;

   // The singleton interface.  This can be set to a non-trivial implementation
   // only once via Bind.
   static inline TrivialImpl trivial_impl_;
   static inline ktl::atomic<Interface*> interface_{&trivial_impl_};
 };

 void platform_set_ram_crashlog_location(paddr_t phys, size_t len);
 bool platform_has_ram_crashlog();

 /* Stash the crashlog somewhere platform-specific that allows
  * for recovery after reboot.  This will only be called out
  * of the panic() handling path on the way to reboot, and is
  * not necessarily safe to be called from any other state.
  *
  * Calling with a NULL log returns the maximum supported size.
  * It is safe to query the size at any time after boot.  If the
  * return is 0, no crashlog recovery is supported.
  */
 extern void (*platform_stow_crashlog)(zircon_crash_reason_t reason, const void* log, size_t len);

 /* Recover the crashlog, fprintf'ing its contents into the FILE |tgt|
  * provided by the caller, then return the length of the recovered
  * crashlog.
  *
  * It is safe to call this function more than once.  Users may compute
  * the length of the crashlog without rendering it by passing nullptr
  * for |tgt|.  The length of the rendered log is guaranteed to stay
  * constant between calls.
  *
  */
 extern size_t (*platform_recover_crashlog)(FILE* tgt);

 /* Either enable or disable periodic updates of the crashlog uptime. */
 extern void (*platform_enable_crashlog_uptime_updates)(bool enabled);

 #endif  // ZIRCON_KERNEL_INCLUDE_PLATFORM_CRASHLOG_H_
	// Copyright 2020 The Fuchsia Authors
	//
	// Use of this source code is governed by a MIT-style
	// license that can be found in the LICENSE file or at
	// https://opensource.org/licenses/MIT

	#ifndef ZIRCON_KERNEL_INCLUDE_PLATFORM_CRASHLOG_H_
	#define ZIRCON_KERNEL_INCLUDE_PLATFORM_CRASHLOG_H_

	#include <stdio.h>
	#include <sys/types.h>
	#include <zircon/boot/crash-reason.h>
	#include <zircon/compiler.h>
	#include <zircon/types.h>

	#include <ktl/atomic.h>
	#include <ktl/span.h>

	class PlatformCrashlog {
	public:
	// This is common interface definition for specific implementations of crashlog support.
	// Depending on the platform, and the resources provided to it, users will end up with
	//
	// 1) A RAM mappable crashlog implementation, where the crashlog RAM is mapped
	// directly accessible by the CPUs from a mapped virtual address.
	// 2) An EFI capsule based implementation, where crashlogs get stored in an
	// EFI capsule during a non-spontaneous crash.
	// 3) A trivial, no-op implementation, because the kernel was not provided any
	// way to store data which could survive a reboot.
	//
	// Generally speaking, the underlying implementation are not multi-thread
	// safe, and users should take care to never do something like having multiple
	// threads calling into Finalize at the same time.
	class Interface {
	public:
	// Returns a span which points to the region which the kernel should render
	// a crashlog payload to during a non-spontaneous crash.
	virtual ktl::span<char> GetRenderTarget() = 0;

	// Finalize a crashlog just before triggering a reboot. \|reason\| is the SW
	// reboot reason which will be stored in the crashlog header, while \|amt\| is
	// the amount of the render target (see \|GetRenderTarget\|) which was filled
	// before calling finalize.
	virtual void Finalize(zircon_crash_reason_t reason, size_t amt) = 0;

	// Attempt to recover any crashlog from platform specific storage, writing
	// the results to \|tgt\|. Returns the number of bytes written to \|tgt\| in
	// the process. Users may pass nullptr to \|tgt\| if they wish to simply
	// measure the size of the crashlog to be recovered.
	virtual size_t Recover(FILE* tgt) = 0;

	// Enable periodic updates of the uptime estimate in the crashlog header.
	// This allows systems with directly mappable crashlog RAM to constantly be
	// stashing a valid header with an uptime estimate and a reboot reason of
	// "UNKNOWN" to be recovered in the case of a spontaneous reboot.
	virtual void EnableCrashlogUptimeUpdates(bool enabled) = 0;

	protected:
	// No one should ever be destroying an implementation of the crashlog
	// interface from an Interface* pointer. Bury the destructor as a
	// protected, non-virtual destructor to prevent anyone from ever
	// accidentally attempting to do so.
	~Interface() = default;
	};

	// Interface management.
	//
	// By default, there is always a Crashlog implementation available, and a
	// reference to it can be fetched using the \|Get\| method. At boot, however,
	// this will be a default trivial implementation which does nothing. The
	// system may switch away from this interface when it discovers usable
	// non-volatile storage by calling \|Bind\|, and passing a reference to a
	// specific Crashlog implementation. Note that this implementation must stay
	// alive for the entire life of the kernel. Once bound to a non-trivial
	// implementation, the interface can no longer be rebound, and any attempts to
	// do so will return an error.
	//
	// Code may check to see if a non-trivial implementation has been bound by
	// calling \|HasNonTrivialImpl\|.
	static Interface& Get() { return *(interface_.load(ktl::memory_order_acquire)); }

	static bool HasNonTrivialImpl() {
	return interface_.load(ktl::memory_order_acquire) != &trivial_impl_;
	}

	static zx_status_t Bind(Interface& impl) {
	Interface* expected = &trivial_impl_;
	return interface_.compare_exchange_strong(expected, &impl, ktl::memory_order_acq_rel)
	? ZX_OK
	: ZX_ERR_ALREADY_BOUND;
	}

	private:
	class TrivialImpl : public Interface {
	public:
	constexpr TrivialImpl() = default;
	~TrivialImpl() = default;

	ktl::span<char> GetRenderTarget() final { return {}; }
	void Finalize(zircon_crash_reason_t reason, size_t amt) final {}
	size_t Recover(FILE* tgt) final { return 0; }
	void EnableCrashlogUptimeUpdates(bool enabled) final {}
	};

	// No one should be creating or destroying any PlatformCrashlog instances.
	// Everything should be going through a PlatformCrashlog::Interface instead.
	PlatformCrashlog() = default;
	~PlatformCrashlog() = default;

	// The singleton interface. This can be set to a non-trivial implementation
	// only once via Bind.
	static inline TrivialImpl trivial_impl_;
	static inline ktl::atomic<Interface*> interface_{&trivial_impl_};
	};

	void platform_set_ram_crashlog_location(paddr_t phys, size_t len);
	bool platform_has_ram_crashlog();

	/* Stash the crashlog somewhere platform-specific that allows
	* for recovery after reboot. This will only be called out
	* of the panic() handling path on the way to reboot, and is
	* not necessarily safe to be called from any other state.
	*
	* Calling with a NULL log returns the maximum supported size.
	* It is safe to query the size at any time after boot. If the
	* return is 0, no crashlog recovery is supported.
	*/
	extern void (platform_stow_crashlog)(zircon_crash_reason_t reason, const void log, size_t len);

	/* Recover the crashlog, fprintf'ing its contents into the FILE \|tgt\|
	* provided by the caller, then return the length of the recovered
	* crashlog.
	*
	* It is safe to call this function more than once. Users may compute
	* the length of the crashlog without rendering it by passing nullptr
	* for \|tgt\|. The length of the rendered log is guaranteed to stay
	* constant between calls.
	*
	*/
	extern size_t (platform_recover_crashlog)(FILE tgt);

	/* Either enable or disable periodic updates of the crashlog uptime. */
	extern void (*platform_enable_crashlog_uptime_updates)(bool enabled);

	#endif // ZIRCON_KERNEL_INCLUDE_PLATFORM_CRASHLOG_H_