1\documentclass{report}
2\usepackage{hyperref}
3\usepackage{adjustbox}
4\usepackage{placeins}
5
6% Metadata.
7\title{CPER-JSON Specification}
8\author{\parbox{\linewidth}{\centering%
9Lawrence Tang\endgraf
10Lawrence.Tang@arm.com\endgraf\medskip}}
11\date{\parbox{\linewidth}{\centering%
12Revision v0.0.1 (\today)\endgraf
13First revision released [DATE].}}
14
15% Commands.
16\newcommand*{\thead}[1]{\multicolumn{1}{|c|}{\bfseries #1}}
17\newcommand*{\jsontable}[1]{
18    \begin{table}[!ht]
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20    \centering
21    \begin{adjustbox}{center}
22    \begin{tabular}{|l|c|p{8cm}|}
23    \hline
24    \thead{Field Name} & \thead{Type} & \thead{Description} \\
25    \hline
26}
27\newcommand*{\jsontableend}[1]{
28    \hline
29    \end{tabular}
30    \end{adjustbox}
31    \caption{#1}
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34    \FloatBarrier
35}
36
37\begin{document}
38\maketitle
39\tableofcontents
40\listoftables
41
42% Introductory section.
43\chapter{Preface}
44\section{Introduction \& Summary}
45This document lays out a structure for representing UEFI CPER records, as described in UEFI Appendix N
46\footnote{Version referenced is \href{https://uefi.org/sites/default/files/resources/UEFI_Spec_2_9_2021_03_18.pdf}{UEFI Specification 2021/03/18}.},
47 in a human-readable JSON format, intended to be interoperable with standard CPER binary.
48\\\\
49The C library released with this specification allows for the conversion between UEFI CPER records, an intermediate format, and the JSON structures
50defined in this document. There is also a comprehensive JSON schema\footnote{As defined by \href{https://json-schema.org/draft/2020-12/json-schema-core.html}{JSON schema Draft (2020/12)}} included within the same repository, at \texttt{specification/json}.
51
52% Specification section.
53\chapter{Main Structure Specification}
54\section{Parent Structure}
55\label{section:parentstructure}
56This structure contains descriptions of the CPER log header, as well as the section descriptors and
57section structures themselves within arrays. This is the structure returned by \texttt{cper\_to\_ir(FILE* cper\_file)} as JSON IR.
58
59% Parent structure table.
60\jsontable{table:parentstructure}
61header & object & A CPER header structure as defined in Section \ref{section:headerstructure}. \\
62\hline
63sectionDescriptors & array & An array of section descriptor objects as defined in Section \ref{section:sectiondescriptorstructure}. \\
64\hline
65sections & array & An array of section objects as defined in Chapter \ref{chapter:sectionchapter}. These sections are at the same index as their corresponding section descriptor within the \texttt{sectionDescriptors} array.\\
66\jsontableend{Parent structure field table.}
67
68% Header structure.
69\section{Header Structure}
70\label{section:headerstructure}
71This structure describes the JSON format of the standard CPER header as defined in section N.2.1 of the
72UEFI specification.
73
74% Header structure table.
75\jsontable{table:headerstructure}
76revision & object & A CPER revision object structure as defined in Subsection \ref{subsection:revisionstructure}. \\
77\hline
78sectionCount & int & The number of sections that are described by the CPER record.\\
79\hline
80severity & object & An error severity structure as described in \ref{subsection:headererrorseveritystructure}.\\
81\hline
82validationBits & object & A CPER header validation bitfield as described in Subsection \ref{subsection:headervalidbitfieldstructure}.\\
83\hline
84recordLength & uint64 & The total length of the binary CPER record, including the header, in bytes.\\
85\hline
86timestamp & string (\textbf{optional}) & The attached record timestamp, if the validity field is set. Formatted identically to \texttt{Date.toJson()} (ISO 8601), minus the trailing timezone letter. Timezone is local to the machine creating the record.\\
87\hline
88timestampIsPrecise & boolean (\textbf{optional}) & If a timestamp is attached, indicates whether the provided timestamp is precise.\\
89\hline
90platformID & string (\textbf{optional}) & If validation bit is set, uniquely identifying GUID of the platform. Platform SMBIOS UUID should be used to populate this field.\\
91\hline
92partitionID & string (\textbf{optional}) & If validation bit is set, GUID identifying the partition on which the error occurred.\\
93\hline
94creatorID & string & A GUID identifying the creator of the error record. May be overwritten by subsequent owners of the record.\\
95\hline
96notificationType & object & A CPER notification type structure as described in Subsection \ref{subsection:notificationtypestructure}.\\
97\hline
98recordID & uint64 & A unique value which, when combined with the \texttt{creatorID} field, uniquely identifies this error record on a given system.\\
99\hline
100flags & object & A CPER header flags structure, as defined in Subsection \ref{subsection:headerflagsstructure}.\\
101\hline
102persistenceInfo & uint64 & Produced and consumed by the creator of the error record identified by \texttt{creatorID}. Format undefined.\\
103\jsontableend{Header structure field table.}
104
105% Header error severity.
106\subsection{Header Error Severity Structure}
107\label{subsection:headererrorseveritystructure}
108This structure describes the error severity of a single CPER record.
109\jsontable{table:headererrorseveritystructure}
110name & string & The human readable name of this error severity, if known. \\
111\hline
112code & uint64 & The integer value of this error severity. \\
113\jsontableend{Header error severity structure field table.}
114
115% Header validation bitfield.
116\subsection{Header Validation Bitfield Structure}
117\label{subsection:headervalidbitfieldstructure}
118This structure describes a bitfield for validating the fields of the header of a single CPER record.
119\jsontable{table:headervalidbitfieldstructure}
120platformIDValid & boolean & Whether the "platformID" field in the header structure (\ref{section:headerstructure}) is valid. \\
121\hline
122timestampValid & boolean & Whether the "timestamp" field in the header structure (\ref{section:headerstructure}) is valid. \\
123\hline
124partitionIDValid & boolean & Whether the "partitionID" field in the header structure (\ref{section:headerstructure}) is valid.\\
125\jsontableend{Header validation bitfield structure field table.}
126
127% Header notification type.
128\subsection{Notification Type Structure}
129\label{subsection:notificationtypestructure}
130This structure describes the notification type of a single CPER record.
131\jsontable{table:notificationtypestructure}
132guid & string & The GUID of this notification type. Assigned GUIDs for types of CPER records are defined in UEFI Specification section N.2.1.1.\\
133\hline
134type & string & A human readable name, if available, of the notification type for the given GUID.\\
135\jsontableend{Notification type structure field table.}
136
137% Header flags.
138\subsection{Header Flags Structure}
139\label{subsection:headerflagsstructure}
140This structure describes the enabled flag on a given CPER record header.
141\jsontable{table:headerflagsstructure}
142name & string & A human readable name, if available, of this flag.\\
143\hline
144value & uint64 & The integer value of this flag.\\
145\jsontableend{Header flags structure field table.}
146
147%Section descriptor structure.
148\section{Section Descriptor Structure}
149\label{section:sectiondescriptorstructure}
150This section describes the JSON format of a single CPER record section descriptor as defined by section N.2.2 of the UEFI specification. An array of these structures is contained within the parent structure as defined in Section \ref{section:parentstructure}.
151
152%Section descriptor structure table.
153\jsontable{table:sectiondescriptorstructure}
154sectionOffset & uint64 & The offset (in bytes) of the section body this section descriptor describes from the base of the record header.\\
155\hline
156sectionLength & uint64 & The length (in bytes) of the section body.\\
157\hline
158revision & object & A CPER revision structure as defined in Subsection \ref{subsection:revisionstructure}.\\
159\hline
160validationBits.fruIDValid & boolean & Whether the "fruID" field on this section descriptor contains valid data.\\
161validationBits.fruStringValid & boolean & Whether the "fruString" field on this section descriptor contains valid data.\\
162\hline
163flags & object & A CPER section descriptor flags structure as described in Subsection \ref{subsection:sectiondescriptorflagsstructure}.\\
164\hline
165sectionType.data & string & GUID data for the type of section body.\\
166sectionType.type & string & The human readable name, if possible, for the type of section body. GUIDs for types of sectoin body are defined in UEFI specification section N.2.2 Table N-5 and section N.2.4.\\
167\hline
168fruID & string (\textbf{optional}) & If validation field set, the FRU ID of the section reporting the error.\\
169\hline
170severity.code & uint64 & The integer value of the severity of the described section.\\
171severity.name & string & If available, the human readable name for the severity of the described section.\\
172\hline
173fruText & string (\textbf{optional}) & If validation field set, ASCII string identifying the FRU hardware.\\
174\jsontableend{Section descriptor structure field table.}
175
176% Section descriptor flags.
177\subsection{Section Descriptor Flags Structure}
178\label{subsection:sectiondescriptorflagsstructure}
179This structure describes the enabled flags on a given CPER section descriptor.
180\jsontable{table:sectiondescriptorflagsstructure}
181primary & boolean & If true, indicates the section body should be associated with the error condition.\\
182\hline
183containmentWarning & boolean & If true, the error was not contained within the processor or memory heirarchy, and may have propagated elsewhere.\\
184\hline
185reset & boolean & If true, indicates the component has been reset and must be re-initialised or re-enabled by the operating system.\\
186\hline
187errorThresholdExceeded & boolean & If true, indicates the operating system may choose to discontinue use of this resource.\\
188\hline
189resourceNotAccessible & boolean & If true, the resource could not be queried for error information due to conflicts with other system software or resources. Some fields of the section will be invalid.\\
190\hline
191latentError & boolean & If true, indicates that action has been taken to ensure error containment, but the error has not been fully corrected. System software may choose to take further action before the data is consumed.\\
192\hline
193propagated & boolean & If true, indicates that the error has been propagated due to hardware poisoning.\\
194\hline
195overflow & boolean & If true, overflow of data structures used to manage errors has been detected. Some error records may be lost.\\
196\jsontableend{Section descriptor flags structure field table.}
197
198% Generic CPER structures.
199\section{Generic CPER Structures}
200This section describes generic CPER structures that are re-used throughout the specification.
201
202% Revision.
203\subsection{Revision Structure}
204\label{subsection:revisionstructure}
205This structure describes the revision of a single CPER record or sub-structure.
206\jsontable{table:revisionstructure}
207major & int & The major version number. An increase in this revision indicates the changes are not backward compatible. \\
208\hline
209minor & int & The minor version number. Incremented on additions of new GUID types, errata fixes, or clarifications. Backwards compatible with the same major version number. \\
210\jsontableend{CPER revision structure field table.}
211
212% Generic Error Status
213\subsection{Generic Error Status Structure}
214\label{subsection:genericerrorstatusstructure}
215This structure describes the a generic CPER error status, that can be used by any CPER section.
216\jsontable{table:genericerrorstatusstructure}
217errorType.value & uint64 & The raw value of the error type.\\
218errorType.name & string & The human readable name, if available, of the error type.\\
219errorType.description & string & A human readable description, if available, of the error type.\\
220\hline
221addressSignal & boolean & Whether the error was detected on the address signals/address portion of the transaction.\\
222\hline
223controlSignal & boolean & Whether the error was detected on the control signals/control portion of the transaction.\\
224\hline
225dataSignal & boolean & Whether the error was detected on the data signals/data portion of the transaction.\\
226\hline
227detectedByResponder & boolean & Whether the error was detected by the responder of the transaction.\\
228\hline
229detectedByRequester & boolean & Whether the error was detected by the requester of the transaction.\\
230\hline
231firstError & boolean & If multiple errors are logged for a single type of section, this indicates this is the first error in a chronological sequence. This field is optional to set.\\
232\hline
233overflowDroppedLogs & boolean & Additional errors occurred and were not logged due to lack of resources.\\
234\jsontableend{Generic Error Status structure field table.}
235
236%Sections.
237\chapter{Section Specification}
238\label{chapter:sectionchapter}
239This chapter defines section body formats for all of the sections defined within UEFI Specification section N.2.4.
240
241% Generic processor error section.
242\section{Generic Processor Error Section}
243\label{section:genericprocessorerrorsection}
244This section describes the JSON format for a single Generic Processor Error Section from a CPER record. The GUID used for Generic Processor Error Sections is \texttt{\{0x9876CCAD, 0x47B4, 0x4bdb, \{0xB6, 0x5E, 0x16, 0xF1, 0x93, 0xC4, 0xF3, 0xDB\}\}}.
245\jsontable{table:genericprocessorerrorsection}
246validationBits & object & A Generic Processor Error Validation Structure, as described in Subsection \ref{subsection:genericprocessorvalidationstructure}.\\
247\hline
248processorType.name & string & If available, the human readable name of the processor type.\\
249processorType.value & uint64 & The integer value of the processor type.\\
250\hline
251processorISA.name & string & If available, the human readable name of the processor ISA.\\
252processorISA.value & uint64 & The integer value corresponding to the processor ISA.\\
253\hline
254errorType.name & string & If available, the human readable name of the type of processor error this section describes.\\
255errorType.value & uint64 & The integer value corresponding to the processor error type.\\
256\hline
257operation.name & string & If available, the human readable name of the operation.\\
258operation.value & uint64 & The integer value corresponding to the operation.\\
259\hline
260flags & object & Flag information for the Generic Processor Error as described in Subsection \ref{subsection:genericprocessorflagsstructure}.\\
261\hline
262level & int & The level of the structure at which the error occurred.\\
263\hline
264cpuVersionInfo & uint64 & The CPU version information as reported by CPUID with EAX=1. On ARM, this is MIDR\_EL1.\\
265\hline
266cpuBrandString & string & The ASCII brand string of the CPU. This field is optional on ARM.\\
267\hline
268processorID & uint64 & The unique identifier of the logical processor. On ARM, this is MPIDR\_EL1.\\
269\hline
270targetAddress & uint64 & The target address associated with the error.\\
271\hline
272requestorID & uint64 & ID of the requestor associated with the error.\\
273\hline
274responderID & uint64 & ID of the responder associated with the error.\\
275\hline
276instructionIP & uint64 & Identifies the instruction pointer at the point of error.\\
277\jsontableend{Generic Processor Error structure field table.}
278
279% Generic processor error validation structure.
280\subsection{Generic Processor Error Validation Structure}
281\label{subsection:genericprocessorvalidationstructure}
282This structure describes the valdation bits structure of a General Processor Error CPER section.
283\jsontable{table:genericprocessorvalidationstructure}
284processorTypeValid & boolean & Whether the "processorType" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
285\hline
286processorISAValid & boolean & Whether the "processorISA" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
287\hline
288errorTypeValid & boolean & Whether the "errorType" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
289\hline
290operationValid & boolean & Whether the "operation" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
291\hline
292flagsValid & boolean & Whether the "flags" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
293\hline
294levelValid & boolean & Whether the "levelValid" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
295\hline
296cpuVersionValid & boolean & Whether the "cpuVersion" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
297\hline
298cpuBrandInfoValid & boolean & Whether the "cpuBrandInfo" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
299\hline
300cpuIDValid & boolean & Whether the "cpuID" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
301\hline
302targetAddressValid & boolean & Whether the "targetAddress" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
303\hline
304requestorIDValid & boolean & Whether the "requestorID" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
305\hline
306responderIDValid & boolean & Whether the "responderID" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
307\hline
308instructionIPValid & boolean & Whether the "instructionIP" field of the Generic Processor Error section (\ref{section:genericprocessorerrorsection}) is valid.\\
309\jsontableend{Generic Processor Error validation structure field table.}
310
311% Generic processor error flags structure.
312\subsection{Generic Processor Error Flags Structure}
313\label{subsection:genericprocessorflagsstructure}
314This structure describes the flags structure of a General Processor Error CPER section.
315\jsontable{table:genericprocessorflagsstructure}
316restartable & boolean & Whether program execution can be restarted reliably after the error.\\
317\hline
318preciseIP & boolean & Whether the instruction IP captured is directly associated with the error.\\
319\hline
320overflow & boolean & Whether a machine check overflow occurred (multiple errors occurred at once).\\
321\hline
322corrected & boolean & Whether the error was corrected by hardware/firmware.\\
323\jsontableend{Generic Processor Error flags structure field table.}
324
325% IA32/x64 error section.
326\section{IA32/x64 Processor Error Section}
327\label{section:ia32x64errorsection}
328This section describes the JSON format for a single IA32/x64 Error Section from a CPER record. The GUID used for IA32/x64 Processor Error Sections is \texttt{\{0xDC3EA0B0, 0xA144, 0x4797, \{0xB9, 0x5B, 0x53, 0xFA, 0x24, 0x2B, 0x6E, 0x1D\}\}}.
329\jsontable{table:genericprocessorerrorsection}
330validationBits & object & IA32/x64 Processor Error Validation Structure as described in Subsection \ref{subsection:ia32x64processorflagsstructure}.\\
331\hline
332localAPICID & uint64 & The APIC ID of the processor.\\
333\hline
334cpuidInfo & object & IA32/x64 CPUINFO Structure as defined in Subsection \ref{subsection:ia32x64cpuinfostructure}.\\
335\hline
336processorErrorInfo & array & Array of IA32/x64 Processor Error Info Structures as described in Subsection \ref{subsection:ia32x64processorerrorinfostructure}.\\
337\hline
338processorContextInfo & array & Array of IA32/x64 Processor Context Info Structures as described in Subsection \ref{subsection:ia32x64processorcontextinfostructure}.\\
339\jsontableend{IA32/x64 Processor Error structure field table.}
340
341% IA32/x64 validation bitfield structure.
342\subsection{IA32/x64 Processor Error Validation Structure}
343\label{subsection:ia32x64processorflagsstructure}
344This structure describes the validation bitfield structure of an IA32/x64 Error CPER section.
345\jsontable{table:ia32x64processorflagsstructure}
346localAPICIDValid & boolean & Whether the "localAPICID" field of the IA32/x64 Error section (\ref{section:ia32x64errorsection}) is valid.\\
347\hline
348cpuIDInfoValid & boolean & Whether the "cpuidInfo" field of the IA32/x64 Error section (\ref{section:ia32x64errorsection}) is valid.\\
349\hline
350processorErrorInfoNum & int & The number of IA32/x64 Processor Error Info Structures (\ref{subsection:ia32x64processorerrorinfostructure}) that are included with this error section.\\
351\hline
352processorContextInfoNum & int & The number of IA32/x64 Processor Context Info Structures (\ref{subsection:ia32x64processorcontextinfostructure}) that are included with this error section.\\
353\jsontableend{IA32/x64 Processor Error validation structure field table.}
354
355% IA32/x64 CPUINFO structure.
356\subsection{IA32/x64 CPUINFO Structure}
357\label{subsection:ia32x64cpuinfostructure}
358This structure describes the CPUINFO structure of an IA32/x64 Error CPER section.
359\jsontable{table:ia32x64cpuinfostructure}
360eax & uint64 & Value of the EAX register resulting from a call to CPUID with EAX=1.\\
361\hline
362ebx & uint64 & Value of the EBX register resulting from a call to CPUID with EAX=1.\\
363\hline
364ecx & uint64 & Value of the ECX register resulting from a call to CPUID with EAX=1.\\
365\hline
366edx & uint64 & Value of the EDX register resulting from a call to CPUID with EAX=1.\\
367\jsontableend{IA32/x64 CPUINFO structure field table.}
368
369% IA32/x64 Processor Error Info structure.
370\subsection{IA32/x64 Processor Error Info Structure}
371\label{subsection:ia32x64processorerrorinfostructure}
372This structure describes a single IA32/x64 Processor Error Info sub-section, which is part of the larger IA32/x64 record (\ref{section:ia32x64errorsection}).
373\jsontable{table:ia32x64processorerrorinfostructure}
374type & string & A GUID indicating the type of processor error defined in this structure. See \texttt{edk/Cper.h} in the library repository for the defined GUID values.\\
375\hline
376validationBits & object & An IA32/x64 Processor Error Info Validation structure, as defined in Subsection \ref{subsection:ia32x64processorerrorinfovalidationstructure}.\\
377\hline
378checkInfo & object & Check information structure for this error. One of the structures defined in Subsections \ref{subsection:ia32x64processorerrorcheckinfocachetlbstructure}, \ref{subsection:ia32x64processorerrorcheckinfobusstructure}, or \ref{subsection:ia32x64processorerrorcheckinfomscheckstructure}. Which section is placed here is dependent on the \texttt{type} field.\\
379\hline
380targetAddressID & uint64 & Identifies the target address associated with the error.\\
381\hline
382requestorID & uint64 & Identifies the requestor associated with the error.\\
383\hline
384responderID & uint64 & Identifies the responder associated with the error.\\
385\hline
386instructionPointer & uint64 & Identifies the instruction executing when the error occurred.\\
387\jsontableend{IA32/x64 Processor Error Info structure field table.}
388
389% IA32/x64 Processor Error Info Validation structure.
390\subsection{IA32/x64 Processor Error Info Validation Structure}
391\label{subsection:ia32x64processorerrorinfovalidationstructure}
392This structure describes a single IA32/x64 Processor Error Info structure's valid fields, as a set of boolean values.
393\jsontable{table:ia32x64processorerrorinfovalidationstructure}
394checkInfoValid & boolean & Whether the "checkInfo" field in the Processor Error Info structure (\ref{subsection:ia32x64processorerrorinfostructure}) is valid.\\
395\hline
396targetAddressIDValid & boolean & Whether the "targetAddressID" field in the Processor Error Info structure (\ref{subsection:ia32x64processorerrorinfostructure}) is valid.\\
397\hline
398requestorIDValid & boolean & Whether the "requestorID" field in the Processor Error Info structure (\ref{subsection:ia32x64processorerrorinfostructure}) is valid.\\
399\hline
400responderIDValid & boolean & Whether the "responderID" field in the Processor Error Info structure (\ref{subsection:ia32x64processorerrorinfostructure}) is valid.\\
401\hline
402instructionPointerValid & boolean & Whether the "instructionPointer" field in the Processor Error Info structure (\ref{subsection:ia32x64processorerrorinfostructure}) is valid.\\
403\hline
404\jsontableend{IA32/x64 Processor Error Info validation structure field table.}
405
406% IA32/x64 Processor Error Check Info (Cache/TLB Error)
407\subsection{IA32/x64 Processor Error Check Info (Cache/TLB Error) Structure}
408\label{subsection:ia32x64processorerrorcheckinfocachetlbstructure}
409This structure describes check info for an IA32/x64 Processor Error Info structure (\ref{subsection:ia32x64processorerrorinfostructure}) stemming from a cache or TLB error.
410The GUIDs for cache and TLB error check info structures can be found in the library repository's \texttt{edk/Cper.h}.
411\jsontable{table:ia32x64processorerrorcheckinfocachetlbstructure}
412validationBits & object & An IA32/x64 Processor Error Check Info (Cache/TLB/Bus) Validation structure, as defined in Subsection \ref{subsection:ia32x64processorerrorcheckinfovalidationstructure}.\\
413\hline
414transactionType.value & uint64 & The raw value of the type of cache/TLB error that occurred.\\
415transactionType.name & string & The human readable name, if available, of the type of cache/TLB error that occurred.\\
416\hline
417operation.value & uint64 & The raw value of the type of cache/TLB operation that caused the error.\\
418operation.name & string & The human readable name, if available, of the type of cache/TLB operation that caused the error.\\
419\hline
420level & uint64 & The cache/TLB level at which the error occurred.\\
421\hline
422processorContextCorrupt & boolean & Whether the processor context might have been corrupted.\\
423\hline
424uncorrected & boolean & Whether the error remained uncorrected.\\
425\hline
426preciseIP & boolean & Whether the instruction pointed pushed onto the stack is directly associated with the error.\\
427\hline
428restartableIP & boolean & Whether program execution can be restarted reliably at the instruction pointer pushed onto the stack.\\
429\hline
430overflow & boolean & Whether an error overflow occurred (multiple errors within a short timeframe may cause this, can indicate loss of data).\\
431\jsontableend{IA32/x64 Processor Error Check Info (Cache/TLB Error) structure field table.}
432
433% IA32/x64 Processor Error Check Info (Bus Error)
434\subsection{IA32/x64 Processor Error Check Info (Bus Error) Structure}
435\label{subsection:ia32x64processorerrorcheckinfobusstructure}
436This structure describes check info for an IA32/x64 Processor Error Info structure (\ref{subsection:ia32x64processorerrorinfostructure}) stemming from a bus error.
437The GUID for bus error check info structures can be found in the library repository's \texttt{edk/Cper.h}.
438\jsontable{table:ia32x64processorerrorcheckinfobusstructure}
439validationBits & object & An IA32/x64 Processor Error Check Info (Cache/TLB/Bus) Validation structure, as defined in Subsection \ref{subsection:ia32x64processorerrorcheckinfovalidationstructure}.\\
440\hline
441transactionType.value & uint64 & The raw value of the type of bus error that occurred.\\
442transactionType.name & string & The human readable name, if available, of the type of bus error that occurred.\\
443\hline
444operation.value & uint64 & The raw value of the type of bus operation that caused the error.\\
445operation.name & string & The human readable name, if available, of the type of bus operation that caused the error.\\
446\hline
447level & uint64 & The bus heirarchy level at which the error occurred.\\
448\hline
449processorContextCorrupt & boolean & Whether the processor context might have been corrupted.\\
450\hline
451uncorrected & boolean & Whether the error remained uncorrected.\\
452\hline
453preciseIP & boolean & Whether the instruction pointed pushed onto the stack is directly associated with the error.\\
454\hline
455restartableIP & boolean & Whether program execution can be restarted reliably at the instruction pointer pushed onto the stack.\\
456\hline
457overflow & boolean & Whether an error overflow occurred (multiple errors within a short timeframe may cause this, can indicate loss of data).\\
458\hline
459participationType.value & uint64 & The raw value of the type of participation.\\
460participationType.name & string & The human readable name, if available, of the type of participation.\\
461\hline
462timedOut & boolean & Whether the request timed out.\\
463\hline
464addressSpace.value & uint64 & The raw value of the address space the error was in.\\
465addressSpace.name  & string & The human readable name, if available, of the address space the error was in.\\
466\jsontableend{IA32/x64 Processor Error Check Info (Bus Error) structure field table.}
467
468% IA32/x64 Processor Error Check Info (MS Check Error)
469\subsection{IA32/x64 Processor Error Check Info (MS Check Error) Structure}
470\label{subsection:ia32x64processorerrorcheckinfomscheckstructure}
471This structure describes check info for an IA32/x64 Processor Error Info structure (\ref{subsection:ia32x64processorerrorinfostructure}) stemming from an MS check error.
472The GUID for MS check check info structures can be found in the library repository's \texttt{edk/Cper.h}.
473\jsontable{table:ia32x64processorerrorcheckinfomscheckstructure}
474validationBits & object & An IA32/x64 Processor Error Check Info (MS Check) Validation structure, as defined in Subsection \ref{subsection:ia32x64processorerrorcheckinfomscheckvalidationstructure}.\\
475\hline
476errorType.value & uint64 & The raw value of the type of operation that caused the error.\\
477errorType.name & string & The human readable name, if available, of the type of operation that caused the error.\\
478\hline
479processorContextCorrupt & boolean & Whether the processor context might have been corrupted.\\
480\hline
481uncorrected & boolean & Whether the error remained uncorrected.\\
482\hline
483preciseIP & boolean & Whether the instruction pointed pushed onto the stack is directly associated with the error.\\
484\hline
485restartableIP & boolean & Whether program execution can be restarted reliably at the instruction pointer pushed onto the stack.\\
486\hline
487overflow & boolean & Whether an error overflow occurred (multiple errors within a short timeframe may cause this, can indicate loss of data).\\
488\jsontableend{IA32/x64 Processor Error Check Info (MS Check Error) structure field table.}
489
490% IA32/x64 Processor Error Check Info Validation structure.
491\subsection{IA32/x64 Processor Error Check Info (Cache/TLB/Bus) Validation Structure}
492\label{subsection:ia32x64processorerrorcheckinfovalidationstructure}
493This structure describes a single IA32/x64 Processor Error Check Info structure's valid fields for cache, TLB and bus errors, as a set of boolean values.
494\jsontable{table:ia32x64processorerrorcheckinfovalidationstructure}
495transactionTypeValid & boolean & Whether the "transactionType" field in a Processor Error Check Info structure is valid.\\
496\hline
497operationValid & boolean & Whether the "operation" field in a Processor Error Check Info structure is valid.\\
498\hline
499levelValid & boolean & Whether the "level" field in a Processor Error Check Info structure is valid.\\
500\hline
501processorContextCorruptValid & boolean & Whether the "processorContextCorrupt" field in a Processor Error Check Info structure is valid.\\
502\hline
503uncorrectedValid & boolean & Whether the "uncorrected" field in a Processor Error Check Info structure is valid.\\
504\hline
505preciseIPValid & boolean & Whether the "preciseIP" field in a Processor Error Check Info structure is valid.\\
506\hline
507restartableIPValid & boolean & Whether the "restartableIP" field in a Processor Error Check Info structure is valid.\\
508\hline
509overflowValid & boolean & Whether the "overflow" field in a Processor Error Check Info structure is valid.\\
510\hline
511participationTypeValid & boolean (\textbf{optional}) & Whether the "participationType" field in the Processor Error Check Info (Bus Error) structure (\ref{subsection:ia32x64processorerrorcheckinfobusstructure}) is valid. \textbf{This field is only present on bus related check info structures.}\\
512\hline
513timedOutValid & boolean (\textbf{optional}) & Whether the "timeOut" field in the Processor Error Check Info (Bus Error) structure (\ref{subsection:ia32x64processorerrorcheckinfobusstructure}) is valid. \textbf{This field is only present on bus related check info structures.}\\
514\jsontableend{IA32/x64 Processor Error Check Info (Cache/TLB/Bus) validation structure field table.}
515
516% IA32/x64 Processor Error Check Info (MS Check) Validation structure.
517\subsection{IA32/x64 Processor Error Check Info (MS Check) Validation Structure}
518\label{subsection:ia32x64processorerrorcheckinfomscheckvalidationstructure}
519This structure describes a single IA32/x64 Processor Error Check Info structure's valid fields for MS check errors, as a set of boolean values.
520\jsontable{table:ia32x64processorerrorcheckinfomscheckvalidationstructure}
521errorTypeValid & boolean & Whether the "transactionType" field in a Processor Error Check Info (MS Check) (\ref{subsection:ia32x64processorerrorcheckinfomscheckstructure}) structure is valid.\\
522\hline
523processorContextCorruptValid & boolean & Whether the "processorContextCorrupt" field in a Processor Error Check Info (MS Check) (\ref{subsection:ia32x64processorerrorcheckinfomscheckstructure}) structure is valid.\\
524\hline
525uncorrectedValid & boolean & Whether the "uncorrected" field in a Processor Error Check Info (MS Check) (\ref{subsection:ia32x64processorerrorcheckinfomscheckstructure}) structure is valid.\\
526\hline
527preciseIPValid & boolean & Whether the "preciseIP" field in a Processor Error Check Info (MS Check) (\ref{subsection:ia32x64processorerrorcheckinfomscheckstructure}) structure is valid.\\
528\hline
529restartableIPValid & boolean & Whether the "restartableIP" field in a Processor Error Check Info (MS Check) (\ref{subsection:ia32x64processorerrorcheckinfomscheckstructure}) structure is valid.\\
530\hline
531overflowValid & boolean & Whether the "overflow" field in a Processor Error Check Info (MS Check) (\ref{subsection:ia32x64processorerrorcheckinfomscheckstructure}) structure is valid.\\
532\jsontableend{IA32/x64 Processor Error Check Info (MS Check) validation structure field table.}
533
534% IA32/x64 Processor Context Info structure.
535\subsection{IA32/x64 Processor Context Info Structure}
536\label{subsection:ia32x64processorcontextinfostructure}
537This structure describes a single IA32/x64 Processor Context Info sub-section, which is part of the larger IA32/x64 record (\ref{section:ia32x64errorsection}).
538\jsontable{table:ia32x64processorcontextinfostructure}
539registerContextType.value & uint64 & The raw value of the type of processor context state being reported.\\
540registerContextType.name & string & The human readable name, if available, of the type of processor context state being reported.\\
541\hline
542registerArraySize & uint64 & The total size of the array for the data type being reported, in bytes.\\
543\hline
544msrAddress & uint64 & The starting MSR address. Valid when the \texttt{registerContextType.value} field is "1" (MSR Registers).\\
545\hline
546mmRegisterAddress & uint64 & The starting memory address for when the \texttt{registerContextType.value} field is "7" (Memory Mapped Registers).\\
547\hline
548registerArray & object & Register data, formatted as object fields. If the \texttt{registerContextType.value} field has the value "2" or "3", this takes the structure of Subsections \ref{subsection:ia32x64ia32registerstatestructure} and \ref{subsection:ia32x64x64registerstatestructure} respectively. If the value is any other, it takes the form of the structure defined in Subsection \ref{subsection:ia32x64unformattedregisterstatestructure}.\\
549\jsontableend{IA32/x64 Processor Context Info structure field table.}
550
551% IA32/x64 IA32 Register State structure
552\subsection{IA32/x64 IA32 Register State Structure}
553\label{subsection:ia32x64ia32registerstatestructure}
554This structure describes a single IA32/x64 IA32 register state, which is contained in IA32/x64 Processor Context Info structures (\ref{subsection:ia32x64processorcontextinfostructure}) when \texttt{registerContextType.value} has the value "2".
555\jsontable{table:ia32x64ia32registerstatestructure}
556eax & uint64 & The EAX register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
557\hline
558ebx & uint64 & The EBX register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
559\hline
560ecx & uint64 & The ECX register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
561\hline
562edx & uint64 & The EDX register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
563\hline
564esi & uint64 & The ESI register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
565\hline
566edi & uint64 & The EDI register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
567\hline
568ebp & uint64 & The EBP register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
569\hline
570esp & uint64 & The ESP register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
571\hline
572cs & uint64 & The CS register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
573\hline
574ds & uint64 & The DS register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
575\hline
576ss & uint64 & The SS register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
577\hline
578es & uint64 & The ES register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
579\hline
580fs & uint64 & The FS register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
581\hline
582gs & uint64 & The GS register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
583\hline
584eflags & uint64 & The EFLAGS register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
585\hline
586eip & uint64 & The EIP register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
587\hline
588cr0 & uint64 & The CR0 register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
589\hline
590cr1 & uint64 & The CR1 register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
591\hline
592cr2 & uint64 & The CR2 register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
593\hline
594cr3 & uint64 & The CR3 register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
595\hline
596cr4 & uint64 & The CR4 register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
597\hline
598gdtr & uint64 & The GDTR register.\\
599\hline
600idtr & uint64 & The IDTR register.\\
601\hline
602ldtr & uint64 & The LDTR register.\\
603\hline
604tr & uint64 & The TR register. Real maximum is \texttt{UINT32}, null extended to \texttt{UINT64}.\\
605\jsontableend{IA32/x64 IA32 Register State structure field table.}
606
607% IA32/x64 x64 Register State structure
608\subsection{IA32/x64 x64 Register State Structure}
609\label{subsection:ia32x64x64registerstatestructure}
610This structure describes a single IA32/x64 x64 register state, which is contained in IA32/x64 Processor Context Info structures (\ref{subsection:ia32x64processorcontextinfostructure}) when \texttt{registerContextType.value} has the value "3".
611\jsontable{table:ia32x64x64registerstatestructure}
612rax & uint64 & The RAX register.\\
613\hline
614rbx & uint64 & The RBX register.\\
615\hline
616rcx & uint64 & The RCX register.\\
617\hline
618rdx & uint64 & The RDX register.\\
619\hline
620rsi & uint64 & The RSI register.\\
621\hline
622rdi & uint64 & The RDI register.\\
623\hline
624rbp & uint64 & The RBP register.\\
625\hline
626rsp & uint64 & The RSP register.\\
627\hline
628r8 & uint64 & The R8 register.\\
629\hline
630r9 & uint64 & The R9 register.\\
631\hline
632r10 & uint64 & The R10 register.\\
633\hline
634r11 & uint64 & The R11 register.\\
635\hline
636r12 & uint64 & The R12 register.\\
637\hline
638r13 & uint64 & The R13 register.\\
639\hline
640r14 & uint64 & The R14 register.\\
641\hline
642r15 & uint64 & The R15 register.\\
643\hline
644cs & uint64 & The CS register.\\
645\hline
646ds & uint64 & The DS register.\\
647\hline
648ss & uint64 & The SS register.\\
649\hline
650es & uint64 & The ES register.\\
651\hline
652fs & uint64 & The FS register.\\
653\hline
654gs & uint64 & The GS register.\\
655\hline
656rflags & uint64 & The RFLAGS register.\\
657\hline
658eip & uint64 & The EIP register.\\
659\hline
660cr0 & uint64 & The CR0 register.\\
661\hline
662cr1 & uint64 & The CR1 register.\\
663\hline
664cr2 & uint64 & The CR2 register.\\
665\hline
666cr3 & uint64 & The CR3 register.\\
667\hline
668cr4 & uint64 & The CR4 register.\\
669\hline
670cr8 & uint64 & The CR8 register.\\
671\hline
672gdtr\_0 & uint64 & The first \texttt{UINT64} of the GDTR register.\\
673\hline
674gdtr\_1 & uint64 & The second \texttt{UINT64} of the GDTR register.\\
675\hline
676idtr\_0 & uint64 & The first \texttt{UINT64} of the IDTR register.\\
677\hline
678idtr\_1 & uint64 & The second \texttt{UINT64} of the IDTR register.\\
679\hline
680ldtr & uint64 & The LDTR register.\\
681\hline
682tr & uint64 & The TR register.\\
683\jsontableend{IA32/x64 x64 Register State structure field table.}
684
685% IA32/x64 IA32 Register State structure
686\subsection{IA32/x64 Unformatted Register State Structure}
687\label{subsection:ia32x64unformattedregisterstatestructure}
688This structure describes a single IA32/x64 unformatted register state, which is contained in IA32/x64 Processor Context Info structures (\ref{subsection:ia32x64processorcontextinfostructure}) when\\\texttt{registerContextType.value} has a value other than "2" or "3".
689\jsontable{table:ia32x64unformattedregisterstatestructure}
690data & string & A base64-formatted binary representation of the register array.\\
691\jsontableend{IA32/x64 Unformatted Register State structure field table.}
692
693% ARM processor error section.
694\section{ARM Processor Error Section}
695\label{section:armprocessorerrorsection}
696This section describes the JSON format for a single ARM Processor Error Section from a CPER record. The GUID used for ARM Processor Error Sections is \texttt{\{ 0xe19e3d16, 0xbc11, 0x11e4, \{ 0x9c, 0xaa, 0xc2, 0x05, 0x1d, 0x5d, 0x46, 0xb0 \}\}}.
697\jsontable{table:armprocessorerrorsection}
698validationBits & object & An ARM Processor Error Validation structure, as defined in Subsection \ref{subsection:armprocessorerrorvalidationstructure}.\\
699\hline
700errorInfoNum & int & The number of error info structures attached to this error.\\
701\hline
702contextInfoNum & int & The number of context info structures attached to this error.\\
703\hline
704sectionLength & uint64 & The total size (in bytes) of this error section.\\
705\hline
706errorAffinity.value & int & The raw value of the error affinity for this error.\\
707errorAffinity.type & string & The human readable type of the error affinity for this error. All values are vendor defined, so specific names cannot be provided.\\
708\hline
709mpidrEl1 & uint64 & The processor ID (\texttt{MPIDR\_EL1}) for this error.\\
710\hline
711midrEl1 & uint64 & The chip ID (\texttt{MIDR\_EL1}) for this error.\\
712\hline
713running & boolean & Whether the processor is running or not. If true, the \texttt{psciState} field is not included.\\
714\hline
715psciState & uint64 (\textbf{optional}) & The PSCI state of the processor. Only \textbf{optionally} included when the "running" field is false. Cannot be made human readable, as this could either be in the pre-PSCI 1.0 format, or the newer "Extended StateID" format. For more information, see the ARM PSCI specification.\\
716\hline
717errorInfo & array & Array of ARM Processor Error Info structures, as defined in Subsection \ref{subsection:armprocessorerrorinfostructure}.\\
718\hline
719contextInfo & array & Array of ARM Processor Context Info structures, as defined in Subsection \ref{subsection:armprocessorcontextinfostructure}.\\
720\hline
721vendorSpecificInfo.data & string (\textbf{optional}) & If it exists, a base64-encoded binary representation of any attached vendor specific information.\\
722\jsontableend{ARM Processor Error structure field table.}
723
724% ARM Processor Error Validation structure
725\subsection{ARM Processor Error Validation Structure}
726\label{subsection:armprocessorerrorvalidationstructure}
727This structure describes which fields are valid in a single ARM Processor Error structure (\ref{section:armprocessorerrorsection}) with boolean fields.
728\jsontable{table:armprocessorerrorvalidationstructure}
729mpidrValid & boolean & Whether the "mpidrEl1" field in the ARM Processor Error structure (\ref{section:armprocessorerrorsection}) is valid.\\
730\hline
731errorAffinityLevelValid & boolean & Whether the "errorAffinity" field in the ARM Processor Error structure (\ref{section:armprocessorerrorsection}) is valid.\\
732\hline
733runningStateValid & boolean & Whether the "running" field in the ARM Processor Error structure (\ref{section:armprocessorerrorsection}) is valid.\\
734\hline
735vendorSpecificInfoValid & boolean & Whether the trailing vendor specific info (if present) in the ARM Processor Error Structure (\ref{section:armprocessorerrorsection}) is valid.\\
736\jsontableend{ARM Processor Error validation structure field table.}
737
738% ARM Processor Error Info structure
739\subsection{ARM Processor Error Info Structure}
740\label{subsection:armprocessorerrorinfostructure}
741This structure describes a single ARM Processor Error Info structure, as part of a whole ARM Processor Error structure (\ref{section:armprocessorerrorsection}).
742\jsontable{table:armprocessorerrorinfostructure}
743version & int & The version of the structure that is implemented.\\
744\hline
745length & int & The length of the structure, in bytes. For version 0, this is 32.\\
746\hline
747validationBits & object & An ARM Processor Error Info Validation structure as defined in Subsection \ref{subsection:armprocessorerrorinfovalidationstructure}.\\
748\hline
749errorType.value & uint64 & The raw value of the error type this error info describes.\\
750errorType.name & string & The human readable name, if available, of the error type this error info describes.\\
751\hline
752multipleError.value & int & If the value of this field is 2 or greater, the raw value of the number of errors that occurred. Otherwise, the raw value of the multiple error status.\\
753multipleError.type & string & The human readable value, if available, of what type of multiple error this is (single error, multiple error).\\
754\hline
755flags & object & An ARM Processor Error Info Flags structure as defined in Subsection \ref{subsection:armprocessorerrorinfoflagsstructure}.\\
756\hline
757errorInformation & object & An error information structure, as defined in one of Subsections \ref{subsection:armprocessorerrorinfoerrorinformationcachetlbstructure} or \ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}. Which structure this is depends on the \texttt{errorType.value} field.\\
758\hline
759virtualFaultAddress & uint64 & Indicates a virtual fault address associated with the error, such as when an error occurs in virtually indexed cache.\\
760\hline
761physicalFaultAddress & uint64 & Indicates a physical fault address associated with the error.\\
762\jsontableend{ARM Processor Error Info structure field table.}
763
764% ARM Processor Error Info Validation structure
765\subsection{ARM Processor Error Info Validation Structure}
766\label{subsection:armprocessorerrorinfovalidationstructure}
767This structure describes the valid fields in a single ARM Processor Error Info structure (\ref{subsection:armprocessorerrorinfostructure}), using boolean fields.
768\jsontable{table:armprocessorerrorinfovalidationstructure}
769multipleErrorValid & boolean & Whether the "multipleError" field in the ARM Processor Error Info structure (\ref{subsection:armprocessorerrorinfostructure}) is valid.\\
770\hline
771flagsValid & boolean & Whether the "flags" field in the ARM Processor Error Info structure (\ref{subsection:armprocessorerrorinfostructure}) is valid.\\
772\hline
773errorInformationValid & boolean & Whether the "errorInformation" field in the ARM Processor Error Info structure (\ref{subsection:armprocessorerrorinfostructure}) is valid.\\
774\hline
775virtualFaultAddressValid & boolean & Whether the "virtualFaultAddress" field in the ARM Processor Error Info structure (\ref{subsection:armprocessorerrorinfostructure}) is valid.\\
776\hline
777physicalFaultAddressValid & boolean & Whether the "physicalFaultAddress" field in the ARM Processor Error Info structure (\ref{subsection:armprocessorerrorinfostructure}) is valid.\\
778\jsontableend{ARM Processor Error Info validation structure field table.}
779
780% ARM Processor Error Info Validation structure
781\subsection{ARM Processor Error Info Flags Structure}
782\label{subsection:armprocessorerrorinfoflagsstructure}
783This structure describes the flags in a single ARM Processor Error Info structure (\ref{subsection:armprocessorerrorinfostructure}), using boolean fields.
784\jsontable{table:armprocessorerrorinfoflagsstructure}
785firstErrorCaptured & boolean & Whether this is the first error captured.\\
786\hline
787lastErrorCaptured & boolean & Whether this is the last error captured.\\
788\hline
789propagated & boolean & Whether the error has propagated.\\
790\hline
791overflow & boolean & Whether error buffer overflow was detected. This is usually from multiple errors occurring in a short timespan, and indicates loss of error data.\\
792\jsontableend{ARM Processor Error Info Flags structure field table.}
793
794% ARM Processor Error Info Error Information (Cache/TLB) structure
795\subsection{ARM Processor Error Info Cache/TLB Information Structure}
796\label{subsection:armprocessorerrorinfoerrorinformationcachetlbstructure}
797This structure describes cache/TLB error information for a single ARM Processor Error Info structure (\ref{subsection:armprocessorerrorinfostructure}).
798\jsontable{table:armprocessorerrorinfoerrorinformationcachetlbstructure}
799validationBits & object & An ARM Processor Info Cache/TLB Validation structure as defined in Subsection \ref{subsection:armprocessorerrorinfocachetlbvalidationstructure}.\\
800\hline
801transactionType.value & uint64 & The raw value of the type of cache/TLB error.\\
802transactionType.name & string & The human readable name, if available, of the type of cache/TLB error.\\
803\hline
804operation.value & uint64 & The raw value of the cache/TLB operation that caused the error.\\
805operation.name & string & The human readable name, if available, of the cache/TLB operation that caused the error.\\
806\hline
807level & int & The cache/TLB level that the error occurred at.\\
808\hline
809processorContextCorrupt & boolean & Whether the processor context may have been corrupted.\\
810\hline
811corrected & boolean & Whether the error was corrected.\\
812\hline
813precisePC & boolean & Whether the program counter is directly associated with the error.\\
814\hline
815restartablePC & boolean & Whether program execution can be restarted reliably at the program counter associated with the error.\\
816\jsontableend{ARM Processor Error Info Cache/TLB Information structure field table.}
817
818% ARM Processor Error Info Error Information (Cache/TLB) validation structure
819\subsection{ARM Processor Error Info Cache/TLB Validation Structure}
820\label{subsection:armprocessorerrorinfocachetlbvalidationstructure}
821This structure describes valid fields in a single ARM Processor Error Info Cache/TLB Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationcachetlbstructure}), as a set of boolean fields.
822\jsontable{table:armprocessorerrorinfocachetlbvalidationstructure}
823transactionTypeValid & boolean & Whether the "transactionType" field in the ARM Processor Info Cache/TLB Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationcachetlbstructure}) is valid.\\
824\hline
825operationValid & boolean & Whether the "operation" field in the ARM Processor Info Cache/TLB Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationcachetlbstructure}) is valid.\\
826\hline
827levelValid & boolean & Whether the "level" field in the ARM Processor Info Cache/TLB Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationcachetlbstructure}) is valid.\\
828\hline
829processorContextCorruptValid & boolean & Whether the "processorContextCorrupt" field in the ARM Processor Info Cache/TLB Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationcachetlbstructure}) is valid.\\
830\hline
831correctedValid & boolean & Whether the "corrected" field in the ARM Processor Info Cache/TLB Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationcachetlbstructure}) is valid.\\
832\hline
833precisePCValid & boolean & Whether the "precisePC" field in the ARM Processor Info Cache/TLB Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationcachetlbstructure}) is valid.\\
834\hline
835restartablePCValid & boolean & Whether the "restartablePC" field in the ARM Processor Info Cache/TLB Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationcachetlbstructure}) is valid.\\
836\jsontableend{ARM Processor Error Info Cache/TLB validation structure field table.}
837
838% ARM Processor Error Info Error Information (Bus) structure
839\subsection{ARM Processor Error Info Bus Information Structure}
840\label{subsection:armprocessorerrorinfoerrorinformationbusstructure}
841This structure describes bus error information for a single ARM Processor Error Info structure (\ref{subsection:armprocessorerrorinfostructure}).
842\jsontable{table:armprocessorerrorinfoerrorinformationbusstructure}
843validationBits & object & An ARM Processor Info Bus Validation structure as defined in Subsection \ref{subsection:armprocessorerrorinfobusvalidationstructure}.\\
844\hline
845transactionType.value & uint64 & The raw value of the type of bus error.\\
846transactionType.name & string & The human readable name, if available, of the type of bus error.\\
847\hline
848operation.value & uint64 & The raw value of the bus operation that caused the error.\\
849operation.name & string & The human readable name, if available, of the bus operation that caused the error.\\
850\hline
851level & int & The affinity level that the bus error occurred at.\\
852\hline
853processorContextCorrupt & boolean & Whether the processor context may have been corrupted.\\
854\hline
855corrected & boolean & Whether the error was corrected.\\
856\hline
857precisePC & boolean & Whether the program counter is directly associated with the error.\\
858\hline
859restartablePC & boolean & Whether program execution can be restarted reliably at the program counter associated with the error.\\
860\hline
861timedOut & boolean & Whether the request timed out.\\
862\hline
863participationType.value & uint64 & The raw value of the type of participation that occurred in the bus error.\\
864participationType.name & string & The human readable name, if available, of the type of participation that occurred in the bus error.\\
865\hline
866addressSpace.value & uint64 & The raw value of the address space in which the bus error occurred.\\
867addressSpace.name & string & The human readable name, if available, of the address space in which the bus error occurred.\\
868\hline
869memoryAttributes & int & Memory access attributes for this bus error as described in the ARM ARM.\\
870\hline
871accessMode.value & int & The raw value of the access mode of the bus request (secure/normal).\\
872accessMode.name & string & The human readable name, if available, of the access mode of the bus request (secure/normal).\\
873\jsontableend{ARM Processor Error Info Bus Information structure field table.}
874
875% ARM Processor Error Info Error Information (Bus) validation structure
876\subsection{ARM Processor Error Info Bus Validation Structure}
877\label{subsection:armprocessorerrorinfobusvalidationstructure}
878This structure describes valid fields in a single ARM Processor Error Info Cache/TLB Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}), as a set of boolean fields.
879\jsontable{table:armprocessorerrorinfobusvalidationstructure}
880transactionTypeValid & boolean & Whether the "transactionType" field in the ARM Processor Info Bus Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}) is valid.\\
881\hline
882operationValid & boolean & Whether the "operation" field in the ARM Processor Info Bus Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}) is valid.\\
883\hline
884levelValid & boolean & Whether the "level" field in the ARM Processor Info Bus Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}) is valid.\\
885\hline
886processorContextCorruptValid & boolean & Whether the "processorContextCorrupt" field in the ARM Processor Info Bus Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}) is valid.\\
887\hline
888correctedValid & boolean & Whether the "corrected" field in the ARM Processor Info Bus Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}) is valid.\\
889\hline
890precisePCValid & boolean & Whether the "precisePC" field in the ARM Processor Info Bus Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}) is valid.\\
891\hline
892restartablePCValid & boolean & Whether the "restartablePC" field in the ARM Processor Info Bus Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}) is valid.\\
893\hline
894participationTypeValid & boolean & Whether the "participationType" field in the ARM Processor Info Bus Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}) is valid.\\
895\hline
896timedOutValid & boolean & Whether the "timedOut" field in the ARM Processor Info Bus Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}) is valid.\\
897\hline
898addressSpaceValid & boolean & Whether the "addressSpace" field in the ARM Processor Info Bus Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}) is valid.\\
899\hline
900memoryAttributesValid & boolean & Whether the "memoryAttributes" field in the ARM Processor Info Bus Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}) is valid.\\
901\hline
902accessModeValid & boolean & Whether the "accessMode" field in the ARM Processor Info Bus Information structure (\ref{subsection:armprocessorerrorinfoerrorinformationbusstructure}) is valid.\\
903\jsontableend{ARM Processor Error Info Bus validation structure field table.}
904
905% ARM Processor Context Info structure
906\subsection{ARM Processor Context Info Structure}
907\label{subsection:armprocessorcontextinfostructure}
908This structure describes a single ARM Processor Context Info structure, as part of a whole ARM Processor Error structure (\ref{section:armprocessorerrorsection}).
909\jsontable{table:armprocessorcontextinfostructure}
910registerContextType.value & uint64 & The raw value of the type of processor context state being reported.\\
911registerContextType.name & string & The human readable name, if available, of the type of processor context state being reported.\\
912\hline
913registerArraySize & uint64 & The size of the attached register array, in bytes.\\
914\hline
915registerArray & object & The attached register array, with registers encoded as object fields. Structured as shown in one of subsections \ref{subsection:armaarch32gprstructure}, \ref{subsection:armaarch32el1contextregistersstructure}, \ref{subsection:armaarch32el2contextregistersstructure}, \ref{subsection:armaarch32secureregistersstructure}, \ref{subsection:armaarch64gprstructure}, \ref{subsection:armaarch64el1contextregistersstructure}, \ref{subsection:armaarch64el2contextregistersstructure}, \ref{subsection:armaarch64el3contextregistersstructure}, \ref{subsection:armmiscregistersstructure} or \ref{subsection:armunknownregistersstructure}. Type of structure depends on the \texttt{registerContextType.value} field.\\
916\jsontableend{ARM Processor Context Info structure field table.}
917
918% ARM AARCH32 General Purpose Registers structure
919\subsection{ARM AARCH32 General Purpose Registers Structure}
920\label{subsection:armaarch32gprstructure}
921This structure describes the register array for AARCH32 GPRs as part of an ARM Processor Context Info Structure (\ref{subsection:armprocessorcontextinfostructure}). This structure is included when the field \texttt{registerContextType.value} has the value 0.
922\jsontable{table:armaarch32gprstructure}
923r0 & uint64 & Register R0. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
924\hline
925r1 & uint64 & Register R1. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
926\hline
927r2 & uint64 & Register R2. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
928\hline
929r3 & uint64 & Register R3. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
930\hline
931r4 & uint64 & Register R4. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
932\hline
933r5 & uint64 & Register R5. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
934\hline
935r6 & uint64 & Register R6. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
936\hline
937r7 & uint64 & Register R7. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
938\hline
939r8 & uint64 & Register R8. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
940\hline
941r9 & uint64 & Register R9. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
942\hline
943r10 & uint64 & Register R10. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
944\hline
945r11 & uint64 & Register R11. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
946\hline
947r12 & uint64 & Register R12. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
948\hline
949r13\_sp & uint64 & Register R13 (SP). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
950\hline
951r14\_lr & uint64 & Register R14 (LR). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
952\hline
953r15\_pc & uint64 & Register R15 (PC). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
954\jsontableend{ARM AARCH32 General Purpose Registers structure field table.}
955
956% ARM AARCH32 EL1 Context Registers structure
957\subsection{ARM AARCH32 EL1 Context Registers Structure}
958\label{subsection:armaarch32el1contextregistersstructure}
959This structure describes the register array for AARCH32 EL1 context registers as part of an ARM Processor Context Info Structure (\ref{subsection:armprocessorcontextinfostructure}). This structure is included when the field \texttt{registerContextType.value} has the value 1.
960\jsontable{table:armaarch32el1contextregistersstructure}
961dfar & uint64 & Register DFAR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
962\hline
963dfsr & uint64 & Register DFSR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
964\hline
965ifar & uint64 & Register IFAR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
966\hline
967isr & uint64 & Register ISR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
968\hline
969mair0 & uint64 & Register MAIR0. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
970\hline
971mair1 & uint64 & Register MAIR1. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
972\hline
973midr & uint64 & Register MIDR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
974\hline
975mpidr & uint64 & Register MPIDR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
976\hline
977nmrr & uint64 & Register NMRR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
978\hline
979prrr & uint64 & Register PRRR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
980\hline
981sctlr\_ns & uint64 & Register SCTLR (NS). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
982\hline
983spsr & uint64 & Register SPSR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
984\hline
985spsr\_abt & uint64 & Register SPSR (ABT). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
986\hline
987spsr\_fiq & uint64 & Register SPSR (FIQ). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
988\hline
989spsr\_irq & uint64 & Register SPSR (IRQ). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
990\hline
991spsr\_svc & uint64 & Register SPSR (SVC). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
992\hline
993spsr\_und & uint64 & Register SPSR (UND). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
994\hline
995tpidrprw & uint64 & Register TPIDR (PRW). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
996\hline
997tpidruro & uint64 & Register TPIDR (URO). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
998\hline
999tpidrurw & uint64 & Register TPIDR (URW). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1000\hline
1001ttbcr & uint64 & Register TTBCR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1002\hline
1003ttbr0 & uint64 & Register TTBR0. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1004\hline
1005ttbr1 & uint64 & Register TTBR1. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1006\hline
1007dacr & uint64 & Register DACR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1008\jsontableend{ARM AARCH32 EL1 Context Registers structure field table.}
1009
1010% ARM AARCH32 EL2 Context Registers structure
1011\subsection{ARM AARCH32 EL2 Context Registers Structure}
1012\label{subsection:armaarch32el2contextregistersstructure}
1013This structure describes the register array for AARCH32 EL2 context registers as part of an ARM Processor Context Info Structure (\ref{subsection:armprocessorcontextinfostructure}). This structure is included when the field \texttt{registerContextType.value} has the value 2.
1014\jsontable{table:armaarch32el2contextregistersstructure}
1015elr\_hyp & uint64 & Register ELR\_HYP. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1016\hline
1017hamair0 & uint64 & Register HAMAIR0. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1018\hline
1019hamair1 & uint64 & Register HAMAIR1. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1020\hline
1021hcr & uint64 & Register HCR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1022\hline
1023hcr2 & uint64 & Register HCR2. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1024\hline
1025hdfar & uint64 & Register HDFAR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1026\hline
1027hifar & uint64 & Register HIFAR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1028\hline
1029hpfar & uint64 & Register HPFAR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1030\hline
1031hsr & uint64 & Register HSR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1032\hline
1033htcr & uint64 & Register HTCR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1034\hline
1035htpidr & uint64 & Register HTPIDR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1036\hline
1037httbr & uint64 & Register HTTBR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1038\hline
1039spsr\_hyp & uint64 & Register SPSR (HYP). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1040\hline
1041vtcr & uint64 & Register VTCR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1042\hline
1043vttbr & uint64 & Register VTTBR. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1044\hline
1045dacr32\_el2 & uint64 & Register DACR32 (EL2). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1046\hline
1047\jsontableend{ARM AARCH32 EL2 Context Registers structure field table.}
1048
1049% ARM AARCH32 Secure Registers structure
1050\subsection{ARM AARCH32 Secure Registers Structure}
1051\label{subsection:armaarch32secureregistersstructure}
1052This structure describes the register array for AARCH32 secure registers as part of an ARM Processor Context Info Structure (\ref{subsection:armprocessorcontextinfostructure}). This structure is included when the field \texttt{registerContextType.value} has the value 3.
1053\jsontable{table:armaarch32secureregistersstructure}
1054sctlr\_s & uint64 & Register SCTLR\_S. \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1055\hline
1056spsr\_mon & uint64 & Register SPSR (MON). \texttt{UINT32} value null extended to \texttt{UINT64}.\\
1057\jsontableend{ARM AARCH32 Secure Registers structure field table.}
1058
1059% ARM AARCH64 General Purpose Registers structure
1060\subsection{ARM AARCH64 General Purpose Registers Structure}
1061\label{subsection:armaarch64gprstructure}
1062This structure describes the register array for AARCH64 GPRs as part of an ARM Processor Context Info Structure (\ref{subsection:armprocessorcontextinfostructure}). This structure is included when the field \texttt{registerContextType.value} has the value 4.
1063\jsontable{table:armaarch64gprstructure}
1064x0 & uint64 & Register X0.\\
1065\hline
1066x1 & uint64 & Register X1.\\
1067\hline
1068x2 & uint64 & Register X2.\\
1069\hline
1070x3 & uint64 & Register X3.\\
1071\hline
1072x4 & uint64 & Register X4.\\
1073\hline
1074x5 & uint64 & Register X5.\\
1075\hline
1076x6 & uint64 & Register X6.\\
1077\hline
1078x7 & uint64 & Register X7.\\
1079\hline
1080x8 & uint64 & Register X8.\\
1081\hline
1082x9 & uint64 & Register X9.\\
1083\hline
1084x10 & uint64 & Register X10.\\
1085\hline
1086x11 & uint64 & Register X11.\\
1087\hline
1088x12 & uint64 & Register X12.\\
1089\hline
1090x13 & uint64 & Register X13.\\
1091\hline
1092x14 & uint64 & Register X14.\\
1093\hline
1094x15 & uint64 & Register X15.\\
1095\hline
1096x16 & uint64 & Register X16.\\
1097\hline
1098x17 & uint64 & Register X17.\\
1099\hline
1100x18 & uint64 & Register X18.\\
1101\hline
1102x19 & uint64 & Register X19.\\
1103\hline
1104x20 & uint64 & Register X20.\\
1105\hline
1106x21 & uint64 & Register X21.\\
1107\hline
1108x22 & uint64 & Register X22.\\
1109\hline
1110x23 & uint64 & Register X23.\\
1111\hline
1112x24 & uint64 & Register X24.\\
1113\hline
1114x25 & uint64 & Register X25.\\
1115\hline
1116x26 & uint64 & Register X26.\\
1117\hline
1118x27 & uint64 & Register X27.\\
1119\hline
1120x28 & uint64 & Register X28.\\
1121\hline
1122x29 & uint64 & Register X29.\\
1123\hline
1124x30 & uint64 & Register X30.\\
1125\hline
1126sp & uint64 & Register SP.\\
1127\jsontableend{ARM AARCH64 General Purpose Registers structure field table.}
1128
1129% ARM AARCH64 EL1 Context Registers structure
1130\subsection{ARM AARCH64 EL1 Context Registers Structure}
1131\label{subsection:armaarch64el1contextregistersstructure}
1132This structure describes the register array for AARCH64 EL1 context registers as part of an ARM Processor Context Info Structure (\ref{subsection:armprocessorcontextinfostructure}). This structure is included when the field \texttt{registerContextType.value} has the value 5.
1133\jsontable{table:armaarch64el1contextregistersstructure}
1134elr\_el1 & uint64 & Register ELR (EL1).\\
1135\hline
1136esr\_el1 & uint64 & Register ESR (EL1).\\
1137\hline
1138far\_el1 & uint64 & Register FAR (EL1).\\
1139\hline
1140isr\_el1 & uint64 & Register ISR (EL1).\\
1141\hline
1142mair\_el1 & uint64 & Register MAIR (EL1).\\
1143\hline
1144midr\_el1 & uint64 & Register MIDR (EL1).\\
1145\hline
1146mpidr\_el1 & uint64 & Register MPIDR (EL1).\\
1147\hline
1148sctlr\_el1 & uint64 & Register SCTLR (EL1).\\
1149\hline
1150sp\_el0 & uint64 & Register SP (EL0).\\
1151\hline
1152sp\_el1 & uint64 & Register SP (EL1).\\
1153\hline
1154spsr\_el1 & uint64 & Register SPSR (EL1).\\
1155\hline
1156tcr\_el1 & uint64 & Register TCR (EL1).\\
1157\hline
1158tpidr\_el0 & uint64 & Register TPIDR (EL0).\\
1159\hline
1160tpidr\_el1 & uint64 & Register TPIDR (EL1).\\
1161\hline
1162tpidrro\_el0 & uint64 & Register TPIDRRO (EL0).\\
1163\hline
1164ttbr0\_el1 & uint64 & Register TTBR0 (EL1).\\
1165\hline
1166ttbr1\_el1 & uint64 & Register TTBR1 (EL1).\\
1167\jsontableend{ARM AARCH64 EL1 Context Registers structure field table.}
1168
1169% ARM AARCH64 EL2 Context Registers structure
1170\subsection{ARM AARCH64 EL2 Context Registers Structure}
1171\label{subsection:armaarch64el2contextregistersstructure}
1172This structure describes the register array for AARCH64 EL2 context registers as part of an ARM Processor Context Info Structure (\ref{subsection:armprocessorcontextinfostructure}). This structure is included when the field \texttt{registerContextType.value} has the value 6.
1173\jsontable{table:armaarch64el2contextregistersstructure}
1174elr\_el2 & uint64 & Register ELR (EL2).\\
1175\hline
1176esr\_el2 & uint64 & Register ESR (EL2).\\
1177\hline
1178far\_el2 & uint64 & Register FAR (EL2).\\
1179\hline
1180hacr\_el2 & uint64 & Register HACR (EL2).\\
1181\hline
1182hcr\_el2 & uint64 & Register HCR (EL2).\\
1183\hline
1184hpfar\_el2 & uint64 & Register HPFAR (EL2).\\
1185\hline
1186mair\_el2 & uint64 & Register MAIR (EL2).\\
1187\hline
1188sctlr\_el2 & uint64 & Register SCTLR (EL2).\\
1189\hline
1190sp\_el2 & uint64 & Register SP (EL2).\\
1191\hline
1192spsr\_el2 & uint64 & Register SPSR (EL2).\\
1193\hline
1194tcr\_el2 & uint64 & Register TCR (EL2).\\
1195\hline
1196tpidr\_el2 & uint64 & Register TPIDR (EL2).\\
1197\hline
1198ttbr0\_el2 & uint64 & Register TTBR0 (EL2).\\
1199\hline
1200vtcr\_el2 & uint64 & Register VTCR (EL2).\\
1201\hline
1202vttbr\_el2 & uint64 & Register VTTBR (EL2).\\
1203\jsontableend{ARM AARCH64 EL2 Context Registers structure field table.}
1204
1205% ARM AARCH64 EL3 Context Registers structure
1206\subsection{ARM AARCH64 EL3 Context Registers Structure}
1207\label{subsection:armaarch64el3contextregistersstructure}
1208This structure describes the register array for AARCH64 EL3 context registers as part of an ARM Processor Context Info Structure (\ref{subsection:armprocessorcontextinfostructure}). This structure is included when the field \texttt{registerContextType.value} has the value 7.
1209\jsontable{table:armaarch64el3contextregistersstructure}
1210elr\_el3 & uint64 & Register ELR (EL3).\\
1211\hline
1212esr\_el3 & uint64 & Register ESR (EL3).\\
1213\hline
1214far\_el3 & uint64 & Register FAR (EL3).\\
1215\hline
1216mair\_el3 & uint64 & Register MAIR (EL3).\\
1217\hline
1218sctlr\_el3 & uint64 & Register SCTLR (EL3).\\
1219\hline
1220sp\_el3 & uint64 & Register SP (EL3).\\
1221\hline
1222spsr\_el3 & uint64 & Register SPSR (EL3).\\
1223\hline
1224tcr\_el3 & uint64 & Register TCR (EL3).\\
1225\hline
1226tpidr\_el3 & uint64 & Register TPIDR (EL3).\\
1227\hline
1228ttbr0\_el3 & uint64 & Register TTBR0 (EL3).\\
1229\jsontableend{ARM AARCH64 EL3 Context Registers structure field table.}
1230
1231% ARM AARCH64 Miscellaneous Registers structure
1232\subsection{ARM AARCH64 Miscellaneous Registers Structure}
1233\label{subsection:armmiscregistersstructure}
1234This structure describes the register array for miscellaneous ARM registers as part of an ARM Processor Context Info Structure (\ref{subsection:armprocessorcontextinfostructure}). This structure is included when the field \texttt{registerContextType.value} has the value 8.
1235\jsontable{table:armmiscregistersstructure}
1236mrsEncoding.op2 & uint64 & MRS Encoding OP2.\\
1237\hline
1238mrsEncoding.crm & uint64 & MRS Encoding CRm.\\
1239\hline
1240mrsEncoding.crn & uint64 & MRS Encoding CRn.\\
1241\hline
1242mrsEncoding.op1 & uint64 & MRS Encoding Op1.\\
1243\hline
1244mrsEncoding.o0 & uint64 & MRS Encoding O0.\\
1245\hline
1246value & uint64 & Value of the single register.\\
1247\jsontableend{ARM AARCH64 Miscellaneous Registers structure field table.}
1248
1249% ARM AARCH64 Unknown Registers structure
1250\subsection{ARM AARCH64 Unknown Registers Structure}
1251\label{subsection:armunknownregistersstructure}
1252This structure describes the register array for unknown ARM registers as part of an ARM Processor Context Info Structure (\ref{subsection:armprocessorcontextinfostructure}). This structure is included when the field \texttt{registerContextType.value} has any value other than 0-8 (inclusive).
1253\jsontable{table:armunknownregistersstructure}
1254data & string & A base64 representation of the unknown binary register array data.\\
1255\jsontableend{ARM AARCH64 Unknown Registers structure field table.}
1256
1257% Memory error section.
1258\section{Memory Error Section}
1259\label{section:memoryerrorsection}
1260This section describes the JSON format for a single Memory Error Section from a CPER record. The GUID used for Memory Error Sections is \texttt{\{ 0xa5bc1114, 0x6f64, 0x4ede, \{ 0xb8, 0x63, 0x3e, 0x83, 0xed, 0x7c, 0x83, 0xb1 \}\}}.
1261\jsontable{table:memoryerrorsection}
1262validationBits & object & A Memory Error Validation structure, as described in Subsection \ref{subsection:memoryerrorvalidationstructure}.\\
1263\hline
1264errorStatus & object & A CPER Generic Error Status structure, as described in Subsection \ref{subsection:genericerrorstatusstructure}.\\
1265\hline
1266bank & object & Structure as described in one of Subsection \ref{subsection:memoryerrorstandardbankaddressstructure} or Subsection \ref{subsection:memoryerroraddressgroupbankaddressstructure}. Selected structure depends on the \texttt{validationBits.bankValid} field.\\
1267\hline
1268memoryErrorType.value & uint64 & The raw value of the memory error type.\\
1269memoryErrorType.name & string & The human readable name, if available, of the memory error type.\\
1270\hline
1271extended.rowBit16 & boolean & Bit 16 of the row number of the memory error location.\\
1272extended.rowBit17 & boolean & Bit 17 of the row number of the memory error location.\\
1273extended.chipIdentification & int & The ID of the related chip.\\
1274\hline
1275physicalAddress & uint64 & The physical address at which the error occurred.\\
1276\hline
1277physicalAddressMask & uint64 & Defines the valid address bits in the \texttt{physicalAddress} field.\\
1278\hline
1279node & uint64 & Identifies the node containing the memory error, if in a multi-node system.\\
1280\hline
1281card & uint64 & The card number of the memory error location.\\
1282\hline
1283moduleRank & uint64 & The module or rank number of the offending memory error location.\\
1284\hline
1285device & uint64 & The device number of the memory associated with the error.\\
1286\hline
1287row & uint64 & The first 16 bits of the row number of the memory location.\\
1288\hline
1289column & uint64 & The column number of the memory error location.\\
1290\hline
1291bitPosition & uint64 & The bit position at which the error occurred.\\
1292\hline
1293requestorID & uint64 & Hardware address of the device that initiated the errored transaction.\\
1294\hline
1295responderID & uint64 & Hardware address of the device that responded to the transaction.\\
1296\hline
1297targetID & uint64 & Hardware address of the intended target of the transaction.\\
1298\hline
1299rankNumber & uint64 & The rank number of the memory error location.\\
1300\hline
1301cardSmbiosHandle & uint64 & The SMBIOS handle for the memory card's Type 16 Memory Array Structure.\\
1302\hline
1303moduleSmbiosHandle & uint64 & The SMBIOS handle for the memory module's Type 17 Memory Device Structure.\\
1304\jsontableend{Memory Error structure field table.}
1305
1306% Memory error validation structure.
1307\subsection{Memory Error Validation Structure}
1308\label{subsection:memoryerrorvalidationstructure}
1309This structure describes whether fields in a single Memory Error (\ref{section:memoryerrorsection}) are valid, using boolean fields.
1310\jsontable{table:memoryerrorvalidationstructure}
1311errorStatusValid & boolean & Whether the "errorStatus" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1312\hline
1313physicalAddressValid & boolean & Whether the "physicalAddress" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1314\hline
1315physicalAddressMaskValid & boolean & Whether the "physicalAddressMask" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1316\hline
1317nodeValid & boolean & Whether the "node" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1318\hline
1319cardValid & boolean & Whether the "card" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1320\hline
1321moduleValid & boolean & Whether the "module" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1322\hline
1323bankValid & boolean & Whether the "bank.value" field of a Memory Error (\ref{section:memoryerrorsection}) is valid. When the bank is addressed by group/address, refer to \texttt{bankGroupValid} and \texttt{bankAddressValid} instead.\\
1324\hline
1325deviceValid & boolean & Whether the "device" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1326\hline
1327rowValid & boolean & Whether the "row" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1328\hline
1329memoryPlatformTargetValid & boolean & Whether the memory platform target of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1330\hline
1331memoryErrorTypeValid & boolean & Whether the "memoryErrorType" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1332\hline
1333rankNumberValid & boolean & Whether the "rankNumber" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1334\hline
1335cardHandleValid & boolean & Whether the "cardSmbiosHandle" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1336\hline
1337moduleHandleValid & boolean & Whether the "moduleSmbiosHandle" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1338\hline
1339extendedRowBitsValid & boolean & Whether the "extended.rowBit16" and "extended.rowBit17" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1340\hline
1341bankGroupValid & boolean & Whether the "bank.group" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1342\hline
1343bankAddressValid & boolean & Whether the "bank.address" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1344\hline
1345chipIdentificationValid & boolean & Whether the "extended.chipIdentification" field of a Memory Error (\ref{section:memoryerrorsection}) is valid.\\
1346\jsontableend{Memory Error validation structure field table.}
1347
1348% Memory error normal bank addressing structure.
1349\subsection{Memory Error Standard Bank Address Structure}
1350\label{subsection:memoryerrorstandardbankaddressstructure}
1351This structure describes a simple bank address for a Memory Error section (\ref{section:memoryerrorsection}). This structure is selected when the \texttt{bankValid} field in the corresponding Memory Error Validation Structure (\ref{subsection:memoryerrorvalidationstructure}) is set to "true".
1352\jsontable{table:memoryerrorstandardbankaddressstructure}
1353value & uint64 & The value of the bank address.\\
1354\jsontableend{Memory Error Standard Bank Address structure field table.}
1355
1356% Memory error address/group bank addressing structure.
1357\subsection{Memory Error Address/Group Bank Address Structure}
1358\label{subsection:memoryerroraddressgroupbankaddressstructure}
1359This structure describes an address/group bank address for a Memory Error section (\ref{section:memoryerrorsection}). This structure is selected when the \texttt{bankValid} field in the corresponding Memory Error Validation Structure (\ref{subsection:memoryerrorvalidationstructure}) is set to "false".
1360\jsontable{table:memoryerroraddressgroupbankaddressstructure}
1361address & uint64 & The address of the bank.\\
1362\hline
1363group & uint64 & The group of the bank.\\
1364\jsontableend{Memory Error Address/Group Bank Address structure field table.}
1365
1366% Memory error 2 section.
1367\section{Memory Error 2 Section}
1368\label{section:memoryerror2section}
1369This section describes the JSON format for a single Memory Error 2 Section from a CPER record. The GUID used for Memory Error 2 Sections is \texttt{\{ 0x61EC04FC, 0x48E6, 0xD813, \{ 0x25, 0xC9, 0x8D, 0xAA, 0x44, 0x75, 0x0B, 0x12 \}\}}.
1370\jsontable{table:memoryerror2section}
1371validationBits & object & A Memory Error 2 Validation structure, as described in Subsection \ref{subsection:memoryerror2validationstructure}.\\
1372\hline
1373errorStatus & object & A CPER Generic Error Status structure, as described in Subsection \ref{subsection:genericerrorstatusstructure}.\\
1374\hline
1375bank & object & Structure as described in one of Subsection \ref{subsection:memoryerror2standardbankaddressstructure} or Subsection \ref{subsection:memoryerror2addressgroupbankaddressstructure}. Selected structure depends on the \texttt{validationBits.bankValid} field.\\
1376\hline
1377memoryErrorType.value & uint64 & The raw value of the memory error type.\\
1378memoryErrorType.name & string & The human readable name, if available, of the memory error type.\\
1379\hline
1380status.value & int & The raw value of the memory error status.\\
1381status.state & string & The human readable value, if available, of the memory error status (corrected/uncorrected).\\
1382\hline
1383physicalAddress & uint64 & The physical address at which the error occurred.\\
1384\hline
1385physicalAddressMask & uint64 & Defines the valid address bits in the \texttt{physicalAddress} field.\\
1386\hline
1387node & uint64 & Identifies the node containing the memory error, if in a multi-node system.\\
1388\hline
1389card & uint64 & The card number of the memory error location.\\
1390\hline
1391module & uint64 & The module of the offending memory error location.\\
1392\hline
1393device & uint64 & The device number of the memory associated with the error.\\
1394\hline
1395row & uint64 & The first 16 bits of the row number of the memory location.\\
1396\hline
1397column & uint64 & The column number of the memory error location.\\
1398\hline
1399bitPosition & uint64 & The bit position at which the error occurred.\\
1400\hline
1401rank & uint64 & The rank number of the error location.\\
1402\hline
1403chipID & uint64 & Chip identifier. Encoded field used to address the die in 3DS packages.\\
1404\hline
1405requestorID & uint64 & Hardware address of the device that initiated the errored transaction.\\
1406\hline
1407responderID & uint64 & Hardware address of the device that responded to the transaction.\\
1408\hline
1409targetID & uint64 & Hardware address of the intended target of the transaction.\\
1410\hline
1411cardSmbiosHandle & uint64 & The SMBIOS handle for the memory card's Type 16 Memory Array Structure.\\
1412\hline
1413moduleSmbiosHandle & uint64 & The SMBIOS handle for the memory module's Type 17 Memory Device Structure.\\
1414\jsontableend{Memory Error 2 structure field table.}
1415
1416% Memory error 2 validation structure.
1417\subsection{Memory Error 2 Validation Structure}
1418\label{subsection:memoryerror2validationstructure}
1419This structure describes whether fields in a single Memory Error 2 (\ref{section:memoryerror2section}) are valid, using boolean fields.
1420\jsontable{table:memoryerror2validationstructure}
1421errorStatusValid & boolean & Whether the "errorStatus" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1422\hline
1423physicalAddressValid & boolean & Whether the "physicalAddress" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1424\hline
1425physicalAddressMaskValid & boolean & Whether the "physicalAddressMask" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1426\hline
1427nodeValid & boolean & Whether the "node" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1428\hline
1429cardValid & boolean & Whether the "card" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1430\hline
1431moduleValid & boolean & Whether the "module" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1432\hline
1433bankValid & boolean & Whether the "bank.value" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid. When the bank is addressed by group/address, refer to \texttt{bankGroupValid} and \texttt{bankAddressValid} instead.\\
1434\hline
1435deviceValid & boolean & Whether the "device" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1436\hline
1437rowValid & boolean & Whether the "row" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1438\hline
1439columnValid & boolean & Whether the "column" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1440\hline
1441rankValid & boolean & Whether the "rank" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1442\hline
1443bitPositionValid & boolean & Whether the "bitPosition" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1444\hline
1445chipIDValid & boolean & Whether the "chipID" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1446\hline
1447memoryErrorTypeValid & boolean & Whether the "memoryErrorType" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1448\hline
1449statusValid & boolean & Whether the "status" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1450\hline
1451requestorIDValid & boolean & Whether the "requestorID" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1452\hline
1453responderIDValid & boolean & Whether the "responderID" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1454\hline
1455targetIDValid & boolean & Whether the "targetID" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1456\hline
1457cardHandleValid & boolean & Whether the "cardSmbiosHandle" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1458\hline
1459moduleHandleValid & boolean & Whether the "moduleSmbiosHandle" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1460\hline
1461bankGroupValid & boolean & Whether the "bankGroup" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1462\hline
1463bankAddressValid & boolean & Whether the "bankAddress" field of a Memory Error 2 (\ref{section:memoryerror2section}) is valid.\\
1464\jsontableend{Memory Error 2 validation structure field table.}
1465
1466% Memory error 2 normal bank addressing structure.
1467\subsection{Memory Error 2 Standard Bank Address Structure}
1468\label{subsection:memoryerror2standardbankaddressstructure}
1469This structure describes a simple bank address for a Memory Error 2 section (\ref{section:memoryerror2section}). This structure is selected when the \texttt{bankValid} field in the corresponding Memory Error 2 Validation Structure (\ref{subsection:memoryerror2validationstructure}) is set to "true".
1470\jsontable{table:memoryerror2standardbankaddressstructure}
1471value & uint64 & The value of the bank address.\\
1472\jsontableend{Memory Error 2 Standard Bank Address structure field table.}
1473
1474% Memory error 2 address/group bank addressing structure.
1475\subsection{Memory Error 2 Address/Group Bank Address Structure}
1476\label{subsection:memoryerror2addressgroupbankaddressstructure}
1477This structure describes an address/group bank address for a Memory Error 2 section (\ref{section:memoryerror2section}). This structure is selected when the \texttt{bankValid} field in the corresponding Memory Error 2 Validation Structure (\ref{subsection:memoryerror2validationstructure}) is set to "false".
1478\jsontable{table:memoryerror2addressgroupbankaddressstructure}
1479address & uint64 & The address of the bank.\\
1480\hline
1481group & uint64 & The group of the bank.\\
1482\jsontableend{Memory Error 2 Address/Group Bank Address structure field table.}
1483
1484% PCIe error section.
1485\section{PCIe Error Section}
1486\label{section:pcieerrorsection}
1487This section describes the JSON format for a single PCIe Error Section from a CPER record. The GUID used for PCIe Error Sections is \texttt{\{ 0xd995e954, 0xbbc1, 0x430f, \{ 0xad, 0x91, 0xb4, 0x4d, 0xcb, 0x3c, 0x6f, 0x35 \}\}}.
1488\jsontable{table:pcieerrorsection}
1489validationBits & object & A PCIe Error Validation structure as defined in Subsection \ref{subsection:pcieerrorvalidationstructure}.\\
1490\hline
1491portType.value & uint64 & The raw value of the port type for this error.\\
1492portType.name & string & The human readable name, if available, of the port type for this error.\\
1493\hline
1494version.major & int & The major version number for the PCIe specification supported.\\
1495version.minor & int & The minor version number for the PCIe specification supported.\\
1496\hline
1497commandStatus.commandRegister & uint64 & The PCI command register value.\\
1498commandStatus.statusRegister & uint64 & The PCI status register value.\\
1499\hline
1500deviceID & object & A PCIe Device ID structure as defined in Subsection \ref{subsection:pciedeviceidstructure}.\\
1501\hline
1502deviceSerialNumber & uint64 & The serial number of the device.\\
1503\hline
1504bridgeControlStatus.secondaryStatusRegister & uint64 & The bridge secondary status register. \emph{This field is valid for bridges only.}\\
1505\hline
1506bridgeControlStatus.controlRegister & uint64 & The bridge control register. \emph{This field is valid for bridges only.}\\
1507\hline
1508capabilityStructure.data & string & A base-64 formatted binary dump of the PCIe capability structure for this device. The structure could either be a PCIe 1.1 Capability Structure (36-byte, padded to 60 bytes) or a PCIe 2.0 Capability Structure (60-byte).\\
1509\hline
1510aerInfo & object & A PCIe AER Extended Capability structure, as defined in Subsection \ref{subsection:pcieaerecstructure}.\\
1511\jsontableend{PCIe Error structure field table.}
1512
1513% PCIe error validation structure.
1514\subsection{PCIe Error Validation Structure}
1515\label{subsection:pcieerrorvalidationstructure}
1516This structure describes which fields within a PCIe Error section (\ref{section:pcieerrorsection}) are valid, using boolean fields.
1517\jsontable{table:pcieerrorvalidationstructure}
1518portTypeValid & boolean & Whether the "portType" field within a PCIe Error section (\ref{section:pcieerrorsection}) is valid.\\
1519\hline
1520versionValid & boolean & Whether the "version" field within a PCIe Error section (\ref{section:pcieerrorsection}) is valid.\\
1521\hline
1522commandStatusValid & boolean & Whether the "commandStatus" field within a PCIe Error section (\ref{section:pcieerrorsection}) is valid.\\
1523\hline
1524deviceIDValid & boolean & Whether the "deviceID" field within a PCIe Error section (\ref{section:pcieerrorsection}) is valid.\\
1525\hline
1526deviceSerialNumberValid & boolean & Whether the "deviceSerialNumber" field within a PCIe Error section (\ref{section:pcieerrorsection}) is valid.\\
1527\hline
1528bridgeControlStatusValid & boolean & Whether the "bridgeControlStatus" field within a PCIe Error section (\ref{section:pcieerrorsection}) is valid.\\
1529\hline
1530capabilityStructureStatusValid & boolean & Whether the "capabilityStructure" field within a PCIe Error section (\ref{section:pcieerrorsection}) is valid.\\
1531\hline
1532aerInfoValid & boolean & Whether the "aerInfo" field within a PCIe Error section (\ref{section:pcieerrorsection}) is valid.\\
1533\hline
1534\jsontableend{PCIe Error validation structure field table.}
1535
1536% PCIe Device ID structure.
1537\subsection{PCIe Device ID Structure}
1538\label{subsection:pciedeviceidstructure}
1539This structure describes a PCIe device ID, for use in a PCI Error section (\ref{table:pcieerrorsection}).
1540\jsontable{table:pciedeviceidstructure}
1541vendorID & uint64 & The vendor ID of the PCIe device.\\
1542\hline
1543deviceID & uint64 & The device ID of the PCIe device.\\
1544\hline
1545classCode & uint64 & The class code of the PCIe device.\\
1546\hline
1547functionNumber & uint64 & The function number of the PCIe device.\\
1548\hline
1549deviceNumber & uint64 & The device number of the PCIe device.\\
1550\hline
1551segmentNumber & uint64 & The segment number of the PCIe device.\\
1552\hline
1553primaryOrDeviceBusNumber & uint64 & The root port/bridge primary bus number or device bus number of the PCIe device.\\
1554\hline
1555secondaryBusNumber & uint64 & The root port/bridge secondary bus number of the PCIe device.\\
1556\hline
1557slotNumber & uint64 & The slot number of the PCIe device.\\
1558\jsontableend{PCIe Device ID structure field table.}
1559
1560% PCIe Advanced Error Reporting Extended Capability structure.
1561\subsection{PCIe AER Extended Capability Structure}
1562\label{subsection:pcieaerecstructure}
1563This structure describes a PCIe Advanced Error Reporting Extended Capability structure, for use in a PCI Error section (\ref{table:pcieerrorsection}).
1564\jsontable{table:pcieaerecstructure}
1565capabilityID & uint64 & The capability ID for this AER structure.\\
1566\hline
1567capabilityVersion & uint64 & The capability structure version for this AER structure.\\
1568\hline
1569uncorrectableErrorStatusRegister & uint64 & The uncorrectable error status register value.\\
1570\hline
1571uncorrectableErrorMaskRegister & uint64 & The uncorrectable error mask register value.\\
1572\hline
1573uncorrectableErrorSeverityRegister & uint64 & The uncorrectable error severity register value.\\
1574\hline
1575correctableErrorStatusRegister & uint64 & The correctable error status register value.\\
1576\hline
1577correctableErrorMaskRegister & uint64 & The correctable error mask register value.\\
1578\hline
1579aeccReg & uint64 & The AECC register value.\\
1580\hline
1581headerLogRegister & string & A base64-encoded binary dump of the header log register.\\
1582\hline
1583rootErrorCommand & uint64 & The root error command.\\
1584\hline
1585rootErrorStatus & uint64 & The root error status.\\
1586\hline
1587errorSourceIDRegister & uint64 & The error source ID register.\\
1588\hline
1589correctableErrorSourceIDRegister & uint64 & The correctable error source ID register.\\
1590\jsontableend{PCIe AER Extended Capability structure field table.}
1591
1592% PCI/PCI-X Bus error section.
1593\section{PCI/PCI-X Bus Error Section}
1594\label{section:pcibuserrorsection}
1595This section describes the JSON format for a single PCI/PCI-X Bus Error Section from a CPER record. The GUID used for PCI/PCI-X Bus Error Sections is \texttt{\{ 0xc5753963, 0x3b84, 0x4095, \{ 0xbf, 0x78, 0xed, 0xda, 0xd3, 0xf9, 0xc9, 0xdd \}\}}.
1596\jsontable{table:pcibuserrorsection}
1597validationBits & object & A PCI/PCI-X Bus Error Validation structure, as described in Subsection \ref{subsection:pcibuserrorvalidationstructure}.\\
1598\hline
1599errorStatus & object & A CPER Generic Error Status structure, as described in Subsection \ref{subsection:genericerrorstatusstructure}.\\
1600\hline
1601errorType.value & uint64 & The raw value of the error type for this bus error.\\
1602errorType.name & string & The human readable name, if available, of the error type for this bus error.\\
1603\hline
1604busID.busNumber & int & The bus number of this bus ID.\\
1605busID.segmentNumber & int & The segment number of this bus ID.\\
1606\hline
1607busAddress & uint64 & The memory or I/O address on the bus at the time of the error.\\
1608\hline
1609busData & uint64 & Data on the bus at the time of the error.\\
1610\hline
1611busCommandType & string & The type of command at the time of the error. Either "PCI" or "PCI-X".\\
1612\hline
1613busRequestorID & uint64 & The PCI bus requestor ID for the error.\\
1614\hline
1615busCompleterID & uint64 & The PCI bus completer ID for the error.\\
1616\hline
1617targetID & uint64 & The PCI bus intended target ID for the error.\\
1618\jsontableend{PCI/PCI-X Bus Error structure field table.}
1619
1620% PCI/PCI-X Bus error validation structure.
1621\subsection{PCI/PCI-X Bus Error Validation Structure}
1622\label{subsection:pcibuserrorvalidationstructure}
1623This structure describes which fields within a PCI/PCI-X Bus Error section (\ref{section:pcibuserrorsection}) are valid, using boolean fields.
1624\jsontable{table:pcibuserrorvalidationstructure}
1625errorStatusValid & boolean & Whether the "errorStatus" field of the PCI/PCI-X Bus Error section (\ref{section:pcibuserrorsection}) is valid.\\
1626\hline
1627errorTypeValid & boolean & Whether the "errorType" field of the PCI/PCI-X Bus Error section (\ref{section:pcibuserrorsection}) is valid.\\
1628\hline
1629busIDValid & boolean & Whether the "busID" field of the PCI/PCI-X Bus Error section (\ref{section:pcibuserrorsection}) is valid.\\
1630\hline
1631busAddressValid & boolean & Whether the "busAddress" field of the PCI/PCI-X Bus Error section (\ref{section:pcibuserrorsection}) is valid.\\
1632\hline
1633busDataValid & boolean & Whether the "busData" field of the PCI/PCI-X Bus Error section (\ref{section:pcibuserrorsection}) is valid.\\
1634\hline
1635commandValid & boolean & Whether the "busCommandType" field of the PCI/PCI-X Bus Error section (\ref{section:pcibuserrorsection}) is valid.\\
1636\hline
1637requestorIDValid & boolean & Whether the "busRequestorID" field of the PCI/PCI-X Bus Error section (\ref{section:pcibuserrorsection}) is valid.\\
1638\hline
1639completerIDValid & boolean & Whether the "busCompleterID" field of the PCI/PCI-X Bus Error section (\ref{section:pcibuserrorsection}) is valid.\\
1640\hline
1641targetIDValid & boolean & Whether the "targetID" field of the PCI/PCI-X Bus Error section (\ref{section:pcibuserrorsection}) is valid.\\
1642\jsontableend{PCI/PCI-X Bus Error validation structure field table.}
1643
1644% PCI/PCI-X Component error section.
1645\section{PCI/PCI-X Component Error Section}
1646\label{section:pcicomponenterrorsection}
1647This section describes the JSON format for a single PCI/PCI-X Component Error Section from a CPER record. The GUID used for PCI/PCI-X Component Error Sections is \texttt{\{ 0xeb5e4685, 0xca66, 0x4769, \{ 0xb6, 0xa2, 0x26, 0x06, 0x8b, 0x00, 0x13, 0x26 \}\}}.
1648\jsontable{table:pcicomponenterrorsection}
1649validationBits & object & A PCI/PCI-X Component Error Validation structure, as defined in Subsection \ref{subsection:pcicomponenterrorvalidationstructure}.\\
1650\hline
1651errorStatus & object & A CPER Generic Error Status structure, as described in Subsection \ref{subsection:genericerrorstatusstructure}.\\
1652\hline
1653idInfo & object & A PCI/PCI-X Component ID structure, as defined in Subsection \ref{subsection:pcicomponentidstructure}.\\
1654\hline
1655memoryNumber & uint64 & The number of PCI/PCI-X component memory mapped register address/data pair values are present in this structure.\\
1656\hline
1657ioNumber & uint64 & The number of PCI/PCI-X component programmed I/O register address/data pair values are present in this structure.\\
1658\hline
1659registerDataPairs & array & An array of PCI/PCI-X Component Register Pair structures, as defined in Subsection \ref{subsection:pcicomponentregisterpairstructure}. The length corresponds to the amounts listed in fields \texttt{memoryNumber} and \texttt{ioNumber}.\\
1660\jsontableend{PCI/PCI-X Component Error structure field table.}
1661
1662% PCI/PCI-X Component error validation structure.
1663\subsection{PCI/PCI-X Component Error Validation Structure}
1664\label{subsection:pcicomponenterrorvalidationstructure}
1665This structure describes which fields within a PCI/PCI-X Component Error section (\ref{section:pcicomponenterrorsection}) are valid, using boolean fields.
1666\jsontable{table:pcicomponenterrorvalidationstructure}
1667errorStatusValid & boolean & Whether the "errorStatus" field of the PCI/PCI-X Component Error section (\ref{section:pcicomponenterrorsection}) is valid.\\
1668\hline
1669idInfoValid & boolean & Whether the "idInfo" field of the PCI/PCI-X Component Error section (\ref{section:pcicomponenterrorsection}) is valid.\\
1670\hline
1671memoryNumberValid & boolean & Whether the "memoryNumber" field of the PCI/PCI-X Component Error section (\ref{section:pcicomponenterrorsection}) is valid.\\
1672\hline
1673ioNumberValid & boolean & Whether the "ioNumber" field of the PCI/PCI-X Component Error section (\ref{section:pcicomponenterrorsection}) is valid.\\
1674\hline
1675registerDataPairsValid & boolean & Whether the "registerDataPairs" field of the PCI/PCI-X Component Error section (\ref{section:pcicomponenterrorsection}) is valid.\\
1676\jsontableend{PCI/PCI-X Component Error validation structure field table.}
1677
1678% PCI/PCI-X Component ID structure.
1679\subsection{PCI/PCI-X Component ID Structure}
1680\label{subsection:pcicomponentidstructure}
1681This structure describes the ID of a single PCI/PCI-X component for use in a PCI/PCI-X Component Error section (\ref{section:pcicomponenterrorsection}).
1682\jsontable{table:pcicomponentidstructure}
1683vendorID & uint64 & The vendor ID of this PCI/PCI-X component.\\
1684\hline
1685deviceID & uint64 & The device ID of this PCI/PCI-X component.\\
1686\hline
1687classCode & uint64 & The class code of this PCI/PCI-X component.\\
1688\hline
1689functionNumber & uint64 & The function number of this PCI/PCI-X component.\\
1690\hline
1691deviceNumber & uint64 & The device number of this PCI/PCI-X component.\\
1692\hline
1693busNumber & uint64 & The bus number of this PCI/PCI-X component.\\
1694\hline
1695segmentNumber & uint64 & The segment number of this PCI/PCI-X component.\\
1696\jsontableend{PCI/PCI-X Component ID structure field table.}
1697
1698% PCI/PCI-X Component Register Pair structure.
1699\subsection{PCI/PCI-X Component Register Pair Structure}
1700\label{subsection:pcicomponentregisterpairstructure}
1701This structure describes a single pair of registers from a PCI/PCI-X component for use in a PCI/PCI-X Component Error section (\ref{section:pcicomponenterrorsection}). The actual "pairs" of address and data aren't necessarily all 16 bytes allocated long, and there is no field to indicate their length, so do not assume that the address is in the first field and the data in the second.
1702\jsontable{table:pcicomponentregisterpairstructure}
1703firstHalf & uint64 & The first 8 bytes of the 16 byte register pair structure.\\
1704\hline
1705secondHalf & uint64 & The second 8 bytes of the 16 byte register pair structure.\\
1706\jsontableend{PCI/PCI-X Component Register Pair structure field table.}
1707
1708% Firmware error section.
1709\section{Firmware Error Section}
1710\label{section:firmwareerrorsection}
1711This section describes the JSON format for a single Firmware Error Section from a CPER record. The GUID used for Firmware Error Sections is \texttt{\{ 0x81212a96, 0x09ed, 0x4996, \{ 0x94, 0x71, 0x8d, 0x72, 0x9c, 0x8e, 0x69, 0xed \}\}}.
1712\jsontable{table:firmwareerrorsection}
1713errorRecordType.value & uint64 & The raw value of the type of firmware error record this is.\\
1714errorRecordType.name & string & The human readable name, if available, of the type of firmware error record this is.\\
1715\hline
1716revision & int & The header revision of this record. For the referenced UEFI specification, this value is 2.\\
1717\hline
1718recordID & uint64 & Identifier for the referenced firmware error record. When the \texttt{revision} field is greater than 1 (which is expected here), this value will be null.\\
1719\hline
1720recordIDGUID & string & GUID of the firmware error record referenced by this section. \textbf{This field is only valid when the \texttt{errorRecordType} field has a value of 2.} Otherwise, this field is ignored.\\
1721\jsontableend{Firmware Error structure field table.}
1722
1723% Generic DMAr error section.
1724\section{Generic DMAr Error Section}
1725\label{section:dmargenericerrorsection}
1726This section describes the JSON format for a single Generic DMAr Error Section from a CPER record. The GUID used for Generic DMAr Error Sections is \texttt{\{ 0x5b51fef7, 0xc79d, 0x4434, \{ 0x8f, 0x1b, 0xaa, 0x62, 0xde, 0x3e, 0x2c, 0x64 \}\}}.
1727\jsontable{table:dmargenericerrorsection}
1728requesterID & int & The device ID associated with the fault condition.\\
1729\hline
1730segmentNumber & int & The segment number associated with the device.\\
1731\hline
1732faultReason.value & uint64 & The raw value of the reason for the fault.\\
1733faultReason.name & string & The human readable name, if available, of the reason for the fault.\\
1734faultReason.description & string & A human readable description, if available, of the reason for the fault.\\
1735\hline
1736accessType.value & uint64 & The raw value of the access type that caused the fault.\\
1737accessType.name & string & The human readable name, if available, of the access type that caused the fault.\\
1738\hline
1739addressType.value & uint64 & The raw value of the addressing type that caused the fault.\\
1740addressType.name & string & The human readable name, if available, of the addressing type that caused the fault.\\
1741\hline
1742architectureType.value & uint64 & The raw value of the DMAr architecture type.\\
1743architectureType.name & string & The human readable name, if available, of the DMAr architecture type.\\
1744\hline
1745deviceAddress & uint64 & The 64-bit device virtual address contained in the faulted DMA request.\\
1746\jsontableend{Generic DMAr Error structure field table.}
1747
1748% VT-d DMAr error section.
1749\section{VT-d DMAr Error Section}
1750\label{section:vtddmarerrorsection}
1751This section describes the JSON format for a single VT-d DMAr Error Section from a CPER record. The GUID used for VT-d DMAr Error Sections is \texttt{\{ 0x71761d37, 0x32b2, 0x45cd, \{ 0xa7, 0xd0, 0xb0, 0xfe, 0xdd, 0x93, 0xe8, 0xcf \}\}}.
1752\jsontable{table:vtddmarerrorsection}
1753version & int & Version register value as defined in the VT-d specification.\\
1754\hline
1755revision & int & Revision field in VT-d specific DMA remapping reporting structure.\\
1756\hline
1757oemID & uint64 & OEM ID field in VT-d specific DMA remapping reporting structure.\\
1758\hline
1759capabilityRegister & uint64 & Value of VT-d capability register.\\
1760\hline
1761extendedCapabilityRegister & uint64 & Value of VT-d extended capability register.\\
1762\hline
1763globalCommandRegister & uint64 & Value of VT-d global command register.\\
1764\hline
1765globalStatusRegister & uint64 & Value of VT-d global status register.\\
1766\hline
1767faultStatusRegister & uint64 & Value of VT-d fault status register.\\
1768\hline
1769faultRecord & object & A VT-d DMAR Fault Record structure, as defined in Subsection \ref{subsection:vtddmarfaultrecordstructure}.\\
1770\hline
1771rootEntry & string & A base64-represented binary dump of the root entry table for the associated requester ID.\\
1772\hline
1773contextEntry & string & A base64-represented binary dump of the context entry table for the associated requester ID.\\
1774\hline
1775pageTableEntry\_Level6 & uint64 & The page table entry for the device virtual address in page level 6.\\
1776\hline
1777pageTableEntry\_Level5 & uint64 & The page table entry for the device virtual address in page level 5.\\
1778\hline
1779pageTableEntry\_Level4 & uint64 & The page table entry for the device virtual address in page level 4.\\
1780\hline
1781pageTableEntry\_Level3 & uint64 & The page table entry for the device virtual address in page level 3.\\
1782\hline
1783pageTableEntry\_Level2 & uint64 & The page table entry for the device virtual address in page level 2.\\
1784\hline
1785pageTableEntry\_Level1 & uint64 & The page table entry for the device virtual address in page level 1.\\
1786\jsontableend{VT-d DMAr Error structure field table.}
1787
1788% VT-d DMAR Fault Record structure.
1789\subsection{VT-d DMAR Fault Record Structure}
1790\label{subsection:vtddmarfaultrecordstructure}
1791This structure describes a fault record, which forms part of a single VT-d DMAr Error section (\ref{section:vtddmarerrorsection}).
1792\jsontable{table:vtddmarfaultrecordstructure}
1793faultInformation & uint64 & Fault information field as defined in the VT-d specification.\\
1794\hline
1795sourceIdentifier & uint64 & Identifier of the source of the VT-d fault.\\
1796\hline
1797privelegeModeRequested & boolean & Whether privelege mode was requested.\\
1798\hline
1799executePermissionRequested & boolean & Whether execute permission was requested.\\
1800\hline
1801pasidPresent & boolean & Whether the "pasidValue" field contains valid data.\\
1802\hline
1803faultReason & uint64 & The reason for the VT-d fault, as defined in the VT-d specification.\\
1804\hline
1805pasidValue & uint64 & The PASID associated with the fault.\\
1806\hline
1807addressType & uint64 & The addressing type of the fault, as defined by the VT-d specification.\\
1808\hline
1809type.value & uint64 & The raw value of the type of VT-d fault record.\\
1810type.name & string & The human readable name, if available, of the type of VT-d fault record.\\
1811\jsontableend{VT-d DMAR Fault Record structure field table.}
1812
1813% IOMMU DMAr error section.
1814\section{IOMMU DMAr Error Section}
1815\label{section:iommudmarerrorsection}
1816This section describes the JSON format for a single IOMMU DMAr Error Section from a CPER record. The GUID used for IOMMU DMAr Error Sections is \texttt{\{ 0x036f84e1, 0x7f37, 0x428c, \{ 0xa7, 0x9e, 0x57, 0x5f, 0xdf, 0xaa, 0x84, 0xec \}\}}.
1817\jsontable{table:iommudmarerrorsection}
1818revision & int & The IOMMU specification revision.\\
1819\hline
1820controlRegister & uint64 & The IOMMU control register value.\\
1821\hline
1822statusRegister & uint64 & The IOMMU status register value.\\
1823\hline
1824eventLogEntry & string & A base-64 binary dump of the IOMMU fault-related event log entry, as defined in the IOMMU specification.\\
1825\hline
1826deviceTableEntry & string & A base-64 representation of the value from the device table for a given requester ID.\\
1827\hline
1828pageTableEntry\_Level6 & uint64 & Page table entry for device virtual address in page level 6.\\
1829\hline
1830pageTableEntry\_Level5 & uint64 & Page table entry for device virtual address in page level 5.\\
1831\hline
1832pageTableEntry\_Level4 & uint64 & Page table entry for device virtual address in page level 4.\\
1833\hline
1834pageTableEntry\_Level3 & uint64 & Page table entry for device virtual address in page level 3.\\
1835\hline
1836pageTableEntry\_Level2 & uint64 & Page table entry for device virtual address in page level 2.\\
1837\hline
1838pageTableEntry\_Level1 & uint64 & Page table entry for device virtual address in page level 1.\\
1839\jsontableend{IOMMU DMAr Error structure field table.}
1840
1841% CCIX PER error section.
1842\section{CCIX PER Error Section}
1843\label{section:ccixpererrorsection}
1844This section describes the JSON format for a single CCIX PER Error Section from a CPER record. The GUID used for CCIX PER Error Sections is \texttt{\{ 0x91335EF6, 0xEBFB, 0x4478, \{0xA6, 0xA6, 0x88, 0xB7, 0x28, 0xCF, 0x75, 0xD7 \}\}}.
1845\jsontable{table:ccixpererrorsection}
1846length & uint64 & The length (in bytes) of the entire structure.\\
1847\hline
1848validationBits & object & A CCIX PER Validation structure as described in Subsection \ref{subsection:ccixpervalidationstructure}.\\
1849\hline
1850ccixSourceID & int & If the agent is an HA, SA, or RA, this indicates the CCIX Agent ID of the reporting component. Otherwise, this is the CCIX Device ID.\\
1851\hline
1852ccixPortID & int & The CCIX Port ID that reported this error.\\
1853\hline
1854ccixPERLog & string & A base64-represented binary dump of the CCIX PER Log structure, as defined in Section 7.3.2 of the CCIX Base Specification (Rev. 1.0).\\
1855\jsontableend{CCIX PER Error structure field table.}
1856
1857% CCIX PER Validation structure.
1858\subsection{CCIX PER Validation Structure}
1859\label{subsection:ccixpervalidationstructure}
1860This structure describes which fields are valid in a CCIX PER Error section (\ref{section:ccixpererrorsection}) using boolean fields.
1861\jsontable{table:ccixpervalidationstructure}
1862ccixSourceIDValid & boolean & Whether the "ccixSourceID" field in the CCIX PER Error Section (\ref{section:ccixpererrorsection}) is valid.\\
1863\hline
1864ccixPortIDValid & boolean & Whether the "ccixPortID" field in the CCIX PER Error Section (\ref{section:ccixpererrorsection}) is valid.\\
1865\hline
1866ccixPERLogValid & boolean & Whether the "ccixPERLog" field in the CCIX PER Error Section (\ref{section:ccixpererrorsection}) is valid.\\
1867\jsontableend{CCIX PER validation structure field table.}
1868
1869% CXL Protocol error section.
1870\section{CXL Protocol Error Section}
1871\label{section:cxlprotocolerrorsection}
1872This section describes the JSON format for a single CXL Protocol Error Section from a CPER record. The GUID used for CXL Protocol Error Sections is \texttt{\{ 0x80B9EFB4, 0x52B5, 0x4DE3, \{ 0xA7, 0x77, 0x68, 0x78, 0x4B, 0x77, 0x10, 0x48 \}\}}.
1873\jsontable{table:cxlprotocolerrorsection}
1874validationBits & object & A CXL Protocol Validation structure as defined in Subsection \ref{subsection:cxlprotocolvalidationstructure}.\\
1875\hline
1876agentType.value & uint64 & The raw value of the detecting CXL agent type.\\
1877agentType.name & string & The human readable name, if available, of the CXL agent type.\\
1878\hline
1879agentAddress & object & One of the structures described in Subsection \ref{subsection:cxlprotocoldeviceagentaddressstructure} or Subsection \ref{subsection:cxlprotocolrcrbaddressstructure}. Included structure is dependent on the \texttt{agentType.value} field.\\
1880\hline
1881deviceID & object & A CXL Device ID structure, as defined in Subsection \ref{subsection:cxlprotocoldeviceidstructure}.\\
1882\hline
1883deviceSerial & uint64 (\textbf{optional}) & The CXL device serial number. Only included if the detecting device is a CXL device (field \texttt{agentType.value} has value 0).\\
1884\hline
1885capabilityStructure & string & A base64-encoded binary dump of the CXL device's PCIe capability structure. This could either be a PCIe 1.1 Capability Structure (36-byte, padded to 60 bytes), or a PCIe 2.0 Capability Structure (60-byte). Only included if the detecting device is a CXL device (field \texttt{agentType.value} has value 0).\\
1886\hline
1887dvsecLength & int & Length (in bytes) of the CXL DVSEC structure.\\
1888\hline
1889errorLogLength & int & Length (in bytes) of the CXL Error Log structure.\\
1890\hline
1891cxlDVSEC & string & A base64-encoded dump of the CXL DVSEC structure. For CXL 1.1 devices, this is a "CXL DVSEC For Flex Bus Devices" structure as defined in the CXL 1.1 specification. For CXL 1.1 host downstream ports, this is the "CXL DVSEC For Flex Bus Port" structure as defined in the CXL 1.1 specification.\\
1892\hline
1893cxlErrorLog & string & A base64-encoded dump of the CXL error log. This field contains a copy of "CXL RAS Capability Structure", as defined in the CXL 1.1 specification.\\
1894\jsontableend{CXL Protocol Error structure field table.}
1895
1896% CXL Protocol Validation structure.
1897\subsection{CXL Protocol Validation Structure}
1898\label{subsection:cxlprotocolvalidationstructure}
1899This structure describes which fields are valid in a CXL Protocol Error section (\ref{section:cxlprotocolerrorsection}) using boolean fields.
1900\jsontable{table:cxlprotocolvalidationstructure}
1901cxlAgentTypeValid & boolean & Whether the "cxlAgentType" field in the CXL Protocol Error section (\ref{section:cxlprotocolerrorsection}) is valid.\\
1902\hline
1903cxlAgentAddressValid & boolean & Whether the "cxlAgentAddress" field in the CXL Protocol Error section (\ref{section:cxlprotocolerrorsection}) is valid.\\
1904\hline
1905deviceIDValid & boolean & Whether the "deviceID" field in the CXL Protocol Error section (\ref{section:cxlprotocolerrorsection}) is valid.\\
1906\hline
1907deviceSerialValid & boolean & Whether the "deviceSerial" field in the CXL Protocol Error section (\ref{section:cxlprotocolerrorsection}) is valid.\\
1908\hline
1909capabiltyStructureValid & boolean & Whether the "capabilityStructure" field in the CXL Protocol Error section (\ref{section:cxlprotocolerrorsection}) is valid.\\
1910\hline
1911cxlDVSECValid & boolean & Whether the "cxlDVSEC" field in the CXL Protocol Error section (\ref{section:cxlprotocolerrorsection}) is valid.\\
1912\hline
1913cxlErrorLogValid & boolean & Whether the "cxlErrorLog" field in the CXL Protocol Error section (\ref{section:cxlprotocolerrorsection}) is valid.\\
1914\jsontableend{CXL Protocol validation structure field table.}
1915
1916% CXL Protocol Device Agent Address structure.
1917\subsection{CXL Protocol Device Agent Address Structure}
1918\label{subsection:cxlprotocoldeviceagentaddressstructure}
1919This structure describes the address of a single CXL device agent, for use in a CXL Protocol Error section (\ref{section:cxlprotocolerrorsection}). Included when the \texttt{agentType.value} field has the value "0".
1920\jsontable{table:cxlprotocoldeviceagentaddressstructure}
1921functionNumber & uint64 & The function number of the CXL device.\\
1922\hline
1923deviceNumber & uint64 & The device number of the CXL device.\\
1924\hline
1925busNumber & uint64 & The bus number of the CXL device.\\
1926\hline
1927segmentNumber & uint64 & The segment number of the CXL device.\\
1928\jsontableend{CXL Protocol Device Agent Address structure field table.}
1929
1930% CXL Protocol RCRB Base Address structure.
1931\subsection{CXL Protocol RCRB Base Address Structure}
1932\label{subsection:cxlprotocolrcrbaddressstructure}
1933This structure describes an RCRB base address, for use in a CXL Protocol Error section (\ref{section:cxlprotocolerrorsection}). Included when the \texttt{agentType.value} field has the value "1".
1934\jsontable{table:cxlprotocolrcrbaddressstructure}
1935value & uint64 & The CXL port RCRB base address.\\
1936\jsontableend{CXL Protocol RCRB Base Address structure field table.}
1937
1938% CXL Protocol Device ID structure.
1939\subsection{CXL Protocol Device ID Structure}
1940\label{subsection:cxlprotocoldeviceidstructure}
1941This structure describes the ID of a CXL device, for use in a CXL Protocol Error section (\ref{section:cxlprotocolerrorsection}).
1942\jsontable{table:cxlprotocoldeviceidstructure}
1943vendorID & uint64 & The vendor ID of the CXL device.\\
1944\hline
1945deviceID & uint64 & The device ID of the CXL device.\\
1946\hline
1947subsystemVendorID & uint64 & The subsystem vendor ID of the CXL device.\\
1948\hline
1949subsystemDeviceID & uint64 & The subsystem device ID of the CXL device.\\
1950\hline
1951classCode & uint64 & The class code of the CXL device.\\
1952\hline
1953slotNumber & uint64 & The slot number of the CXL device.\\
1954\jsontableend{CXL Protocol Device ID structure field table.}
1955
1956% CXL Component error section.
1957\section{CXL Component Error Section}
1958\label{section:cxlcomponenterrorsection}
1959This section describes the JSON format for a single CXL Component Error Section from a CPER record. There are several GUIDs used for CXL Component Error Sections, of which defined are:\\
1960\begin{itemize}
1961    \item CXL General Media Error (\texttt{\{ 0xfbcd0a77, 0xc260, 0x417f, \{ 0x85, 0xa9, 0x08, 0x8b, 0x16, 0x21, 0xeb, 0xa6 \}\}})\\
1962    \item CXL DRAM Event Error (\texttt{\{ 0x601dcbb3, 0x9c06, 0x4eab, \{ 0xb8, 0xaf, 0x4e, 0x9b, 0xfb, 0x5c, 0x96, 0x24 \}\}})\\
1963    \item CXL Memory Module Error (\texttt{\{ 0xfe927475, 0xdd59, 0x4339, \{ 0xa5, 0x86, 0x79, 0xba, 0xb1, 0x13, 0xb7, 0x74 \}\}})\\
1964    \item CXL Physical Switch Error (\texttt{\{ 0x77cf9271, 0x9c02, 0x470b, \{ 0x9f, 0xe4, 0xbc, 0x7b, 0x75, 0xf2, 0xda, 0x97 \}\}})\\
1965    \item CXL Virtual Switch Error (\texttt{\{ 0x40d26425, 0x3396, 0x4c4d, \{ 0xa5, 0xda, 0x3d, 0x47, 0x26, 0x3a, 0xf4, 0x25 \}\}})\\
1966    \item CXL MLD Port Error (\texttt{\{ 0x8dc44363, 0x0c96, 0x4710, \{ 0xb7, 0xbf, 0x04, 0xbb, 0x99, 0x53, 0x4c, 0x3f \}\}})\\
1967\end{itemize}
1968\jsontable{table:cxlcomponenterrorsection}
1969validationBits & object & A CXL Component Validation structure as described in Subsection \ref{subsection:cxlcomponentvalidationstructure}.\\
1970\hline
1971deviceID & object & A CXL Component Device ID structure as described in Subsection \ref{subsection:cxlcomponentdeviceidstructure}.\\
1972\hline
1973deviceSerial & uint64 & The serial of the CXL component.\\
1974\hline
1975cxlComponentEventLog.data & string (\textbf{optional}) & If a CXL component event log is attached (\texttt{validationBits.cxlComponentEventLogValid} is true), this is a base64-represented binary dump of the CXL Component Event Log as described within CXL Specification Section 8.2.9.1.\\
1976\jsontableend{CXL Component Error structure field table.}
1977
1978% CXL Component Validation structure.
1979\subsection{CXL Component Validation Structure}
1980\label{subsection:cxlcomponentvalidationstructure}
1981This structure describes which fields are valid in a CXL Component Error section (\ref{section:cxlcomponenterrorsection}) using boolean fields.
1982\jsontable{table:cxlcomponentvalidationstructure}
1983deviceIDValid & boolean & Whether the "deviceID" field of the CXL Component Error section (\ref{section:cxlcomponenterrorsection}) is valid.\\
1984\hline
1985deviceSerialValid & boolean & Whether the "deviceSerial" field of the CXL Component Error section (\ref{section:cxlcomponenterrorsection}) is valid.\\
1986\hline
1987cxlComponentEventLogValid & boolean & Whether the "cxlComponentEventLog" field of the CXL Component Error section (\ref{section:cxlcomponenterrorsection}) is valid.\\
1988\jsontableend{CXL Component validation structure field table.}
1989
1990% CXL Component Device ID structure.
1991\subsection{CXL Component Device ID Structure}
1992\label{subsection:cxlcomponentdeviceidstructure}
1993This structure describes the ID of a CXL component, for use in a CXL Component Error section (\ref{section:cxlcomponenterrorsection}).
1994\jsontable{table:cxlcomponentdeviceidstructure}
1995vendorID & uint64 & The vendor ID of the CXL component.\\
1996\hline
1997deviceID & uint64 & The device ID of the CXL component.\\
1998\hline
1999functionNumber & uint64 & The function number of the CXL component.\\
2000\hline
2001deviceNumber & uint64 & The device number of the CXL component.\\
2002\hline
2003busNumber & uint64 & The bus of the CXL component.\\
2004\hline
2005segmentNumber & uint64 & The segment of the CXL component.\\
2006\hline
2007slotNumber & uint64 & The slot number of the CXL component.\\
2008\jsontableend{CXL Component Device ID structure field table.}
2009
2010% Undefined error section.
2011\section{Undefined Error Section}
2012\label{section:undefinederrorsection}
2013This section describes the JSON format for a single undefined CPER section. This structure is used for all CPER sections that have \texttt{errorType} GUIDs which are not defined in UEFI Appendix N.
2014\jsontable{table:ccixpererrorsection}
2015data & string & A base64-encoded binary dump of the undefined CPER section.\\
2016\jsontableend{Undefined Error structure field table.}
2017
2018\end{document}