package sarif

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  2. Docs
type artifact_mimetype = string

The MIME type (RFC 2045) of the artifact.

val show_artifact_mimetype : artifact_mimetype -> Ppx_deriving_runtime.string
val compare_artifact_mimetype : artifact_mimetype -> artifact_mimetype -> Ppx_deriving_runtime.int
type artifact_roles_item = [
  1. | `AnalysisTarget
  2. | `Attachment
  3. | `ResponseFile
  4. | `ResultFile
  5. | `StandardStream
  6. | `TracedFile
  7. | `Unmodified
  8. | `Modified
  9. | `Added
  10. | `Deleted
  11. | `Renamed
  12. | `Uncontrolled
  13. | `Driver
  14. | `Extension
  15. | `Translation
  16. | `Taxonomy
  17. | `Policy
  18. | `ReferencedOnCommandLine
  19. | `MemoryContents
  20. | `Directory
  21. | `UserSpecifiedConfiguration
  22. | `ToolSpecifiedConfiguration
  23. | `DebugOutputFile
]

ArtifactRolesItem

val show_artifact_roles_item : artifact_roles_item -> Ppx_deriving_runtime.string
val compare_artifact_roles_item : artifact_roles_item -> artifact_roles_item -> Ppx_deriving_runtime.int
type external_properties_guid = string

A stable, unique identifier for this external properties object, in the form of a GUID.

val show_external_properties_guid : external_properties_guid -> Ppx_deriving_runtime.string
type external_properties_run_guid = string

A stable, unique identifier for the run associated with this external properties object, in the form of a GUID.

val show_external_properties_run_guid : external_properties_run_guid -> Ppx_deriving_runtime.string
type external_properties_version = [
  1. | `TwoDotOneDotZero
]
val show_external_properties_version : external_properties_version -> Ppx_deriving_runtime.string
type hm_str_str = (string * string) list
val show_hm_str_str : hm_str_str -> Ppx_deriving_runtime.string
val equal_hm_str_str : hm_str_str -> hm_str_str -> Ppx_deriving_runtime.bool
val compare_hm_str_str : hm_str_str -> hm_str_str -> Ppx_deriving_runtime.int
type int64 = Int64.t
val equal_int64 : int64 -> int64 -> Ppx_deriving_runtime.bool
val compare_int64 : int64 -> int64 -> Ppx_deriving_runtime.int
type notification_level = [
  1. | `None
  2. | `Note
  3. | `Warning
  4. | `Error
]

A value specifying the severity level of the notification.

val show_notification_level : notification_level -> Ppx_deriving_runtime.string
val compare_notification_level : notification_level -> notification_level -> Ppx_deriving_runtime.int
type property_bag = hm_str_str

Key/value pairs that provide additional information about the object.

val show_property_bag : property_bag -> Ppx_deriving_runtime.string
val equal_property_bag : property_bag -> property_bag -> Ppx_deriving_runtime.bool
val compare_property_bag : property_bag -> property_bag -> Ppx_deriving_runtime.int
type address = {
  1. absolute_address : int64;
    (*

    The address expressed as a byte offset from the start of the addressable region.

    *)
  2. fully_qualified_name : string option;
    (*

    A human-readable fully qualified name that is associated with the address.

    *)
  3. index : int64;
    (*

    The index within run.addresses of the cached object for this address.

    *)
  4. kind : string option;
    (*

    An open-ended string that identifies the address kind. 'data', 'function', 'header','instruction', 'module', 'page', 'section', 'segment', 'stack', 'stackFrame', 'table' are well-known values.

    *)
  5. length : int64 option;
    (*

    The number of bytes in this range of addresses.

    *)
  6. name : string option;
    (*

    A name that is associated with the address, e.g., '.text'.

    *)
  7. offset_from_parent : int64 option;
    (*

    The byte offset of this address from the absolute or relative address of the parent object.

    *)
  8. parent_index : int64;
    (*

    The index within run.addresses of the parent object.

    *)
  9. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the address.

    *)
  10. relative_address : int64 option;
    (*

    The address expressed as a byte offset from the absolute address of the top-most parent object.

    *)
}

A physical or virtual address, or a range of addresses, in an 'addressable region' (memory or a binary file).

val show_address : address -> Ppx_deriving_runtime.string
val equal_address : address -> address -> Ppx_deriving_runtime.bool
val compare_address : address -> address -> Ppx_deriving_runtime.int
type logical_location = {
  1. decorated_name : string option;
    (*

    The machine-readable name for the logical location, such as a mangled function name provided by a C++ compiler that encodes calling convention, return type and other details along with the function name.

    *)
  2. fully_qualified_name : string option;
    (*

    The human-readable fully qualified name of the logical location.

    *)
  3. index : int64;
    (*

    The index within the logical locations array.

    *)
  4. kind : string option;
    (*

    The type of construct this logical location component refers to. Should be one of 'function', 'member', 'module', 'namespace', 'parameter', 'resource', 'returnType', 'type', 'variable', 'object', 'array', 'property', 'value', 'element', 'text', 'attribute', 'comment', 'declaration', 'dtd' or 'processingInstruction', if any of those accurately describe the construct.

    *)
  5. name : string option;
    (*

    Identifies the construct in which the result occurred. For example, this property might contain the name of a class or a method.

    *)
  6. parent_index : int64;
    (*

    Identifies the index of the immediate parent of the construct in which the result was detected. For example, this property might point to a logical location that represents the namespace that holds a type.

    *)
  7. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the logical location.

    *)
}

A logical location of a construct that produced a result.

val show_logical_location : logical_location -> Ppx_deriving_runtime.string
val compare_logical_location : logical_location -> logical_location -> Ppx_deriving_runtime.int
type message = {
  1. arguments : string list option;
    (*

    An array of strings to substitute into the message string.

    *)
  2. id : string option;
    (*

    The identifier for this message.

    *)
  3. markdown : string option;
    (*

    A Markdown message string.

    *)
  4. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the message.

    *)
  5. text : string option;
    (*

    A plain text message string.

    *)
}

Encapsulates a message intended to be read by the end user.

val show_message : message -> Ppx_deriving_runtime.string
val equal_message : message -> message -> Ppx_deriving_runtime.bool
val compare_message : message -> message -> Ppx_deriving_runtime.int
type artifact_location = {
  1. description : message option;
    (*

    A short description of the artifact location.

    *)
  2. index : int64;
    (*

    The index within the run artifacts array of the artifact object associated with the artifact location.

    *)
  3. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the artifact location.

    *)
  4. uri : string option;
    (*

    A string containing a valid relative or absolute URI.

    *)
  5. uri_base_id : string option;
    (*

    A string which indirectly specifies the absolute URI with respect to which a relative URI in the "uri" property is interpreted.

    *)
}

Specifies the location of an artifact.

val show_artifact_location : artifact_location -> Ppx_deriving_runtime.string
val compare_artifact_location : artifact_location -> artifact_location -> Ppx_deriving_runtime.int
type edge = {
  1. id : string;
    (*

    A string that uniquely identifies the edge within its graph.

    *)
  2. label : message option;
    (*

    A short description of the edge.

    *)
  3. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the edge.

    *)
  4. source_node_id : string;
    (*

    Identifies the source node (the node at which the edge starts).

    *)
  5. target_node_id : string;
    (*

    Identifies the target node (the node at which the edge ends).

    *)
}

Represents a directed edge in a graph.

val equal_edge : edge -> edge -> Ppx_deriving_runtime.bool
val compare_edge : edge -> edge -> Ppx_deriving_runtime.int
type location_relationship = {
  1. description : message option;
    (*

    A description of the location relationship.

    *)
  2. kinds : string list option;
    (*

    A set of distinct strings that categorize the relationship. Well-known kinds include 'includes', 'isIncludedBy' and 'relevant'.

    *)
  3. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the location relationship.

    *)
  4. target : int64;
    (*

    A reference to the related location.

    *)
}

Information about the relation of one location to another.

val show_location_relationship : location_relationship -> Ppx_deriving_runtime.string
val compare_location_relationship : location_relationship -> location_relationship -> Ppx_deriving_runtime.int
type multiformat_message_string = {
  1. markdown : string option;
    (*

    A Markdown message string or format string.

    *)
  2. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the message.

    *)
  3. text : string;
    (*

    A plain text message string or format string.

    *)
}

A message string or message format string rendered in multiple formats.

val show_multiformat_message_string : multiformat_message_string -> Ppx_deriving_runtime.string
type artifact_content = {
  1. binary : string option;
    (*

    MIME Base64-encoded content from a binary artifact, or from a text artifact in its original encoding.

    *)
  2. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the artifact content.

    *)
  3. rendered : multiformat_message_string option;
    (*

    An alternate rendered representation of the artifact (e.g., a decompiled representation of a binary region).

    *)
  4. text : string option;
    (*

    UTF-8-encoded content from a text artifact.

    *)
}

Represents the contents of an artifact.

val show_artifact_content : artifact_content -> Ppx_deriving_runtime.string
val compare_artifact_content : artifact_content -> artifact_content -> Ppx_deriving_runtime.int
type hm_str_mms = (string * multiformat_message_string) list
val show_hm_str_mms : hm_str_mms -> Ppx_deriving_runtime.string
val equal_hm_str_mms : hm_str_mms -> hm_str_mms -> Ppx_deriving_runtime.bool
val compare_hm_str_mms : hm_str_mms -> hm_str_mms -> Ppx_deriving_runtime.int
type edge_traversal = {
  1. edge_id : string;
    (*

    Identifies the edge being traversed.

    *)
  2. final_state : hm_str_mms option;
    (*

    The values of relevant expressions after the edge has been traversed.

    *)
  3. message : message option;
    (*

    A message to display to the user as the edge is traversed.

    *)
  4. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the edge traversal.

    *)
  5. step_over_edge_count : int64 option;
    (*

    The number of edge traversals necessary to return from a nested graph.

    *)
}

Represents the traversal of a single edge during a graph traversal.

val show_edge_traversal : edge_traversal -> Ppx_deriving_runtime.string
val compare_edge_traversal : edge_traversal -> edge_traversal -> Ppx_deriving_runtime.int
type graph_traversal_variant0 = {
  1. description : message option;
    (*

    A description of this graph traversal.

    *)
  2. edge_traversals : edge_traversal list option;
    (*

    The sequences of edges traversed by this graph traversal.

    *)
  3. immutable_state : hm_str_mms option;
    (*

    Values of relevant expressions at the start of the graph traversal that remain constant for the graph traversal.

    *)
  4. initial_state : hm_str_mms option;
    (*

    Values of relevant expressions at the start of the graph traversal that may change during graph traversal.

    *)
  5. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the graph traversal.

    *)
  6. result_graph_index : int64;
    (*

    The index within the result.graphs to be associated with the result.

    *)
  7. run_graph_index : int64;
    (*

    The index within the run.graphs to be associated with the result.

    *)
}
val show_graph_traversal_variant0 : graph_traversal_variant0 -> Ppx_deriving_runtime.string
type graph_traversal_variant1 = {
  1. description : message option;
    (*

    A description of this graph traversal.

    *)
  2. edge_traversals : edge_traversal list option;
    (*

    The sequences of edges traversed by this graph traversal.

    *)
  3. immutable_state : hm_str_mms option;
    (*

    Values of relevant expressions at the start of the graph traversal that remain constant for the graph traversal.

    *)
  4. initial_state : hm_str_mms option;
    (*

    Values of relevant expressions at the start of the graph traversal that may change during graph traversal.

    *)
  5. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the graph traversal.

    *)
  6. result_graph_index : int64;
    (*

    The index within the result.graphs to be associated with the result.

    *)
  7. run_graph_index : int64;
    (*

    The index within the run.graphs to be associated with the result.

    *)
}
val show_graph_traversal_variant1 : graph_traversal_variant1 -> Ppx_deriving_runtime.string
type graph_traversal = [
  1. | `Variant0 of graph_traversal_variant0
  2. | `Variant1 of graph_traversal_variant1
]

Represents a path through a graph.

val show_graph_traversal : graph_traversal -> Ppx_deriving_runtime.string
val compare_graph_traversal : graph_traversal -> graph_traversal -> Ppx_deriving_runtime.int
type rectangle = {
  1. bottom : float option;
  2. left : float option;
  3. message : message option;
    (*

    A message relevant to the rectangle.

    *)
  4. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the rectangle.

    *)
  5. right : float option;
  6. top : float option;
}

An area within an image.

val show_rectangle : rectangle -> Ppx_deriving_runtime.string
val equal_rectangle : rectangle -> rectangle -> Ppx_deriving_runtime.bool
val compare_rectangle : rectangle -> rectangle -> Ppx_deriving_runtime.int
type region = {
  1. byte_length : int64 option;
    (*

    The length of the region in bytes.

    *)
  2. byte_offset : int64;
    (*

    The zero-based offset from the beginning of the artifact of the first byte in the region.

    *)
  3. char_length : int64 option;
    (*

    The length of the region in characters.

    *)
  4. char_offset : int64;
    (*

    The zero-based offset from the beginning of the artifact of the first character in the region.

    *)
  5. end_column : int64 option;
    (*

    The column number of the character following the end of the region.

    *)
  6. end_line : int64 option;
    (*

    The line number of the last character in the region.

    *)
  7. message : message option;
    (*

    A message relevant to the region.

    *)
  8. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the region.

    *)
  9. snippet : artifact_content option;
    (*

    The portion of the artifact contents within the specified region.

    *)
  10. source_language : string option;
    (*

    Specifies the source language, if any, of the portion of the artifact specified by the region object.

    *)
  11. start_column : int64 option;
    (*

    The column number of the first character in the region.

    *)
  12. start_line : int64 option;
    (*

    The line number of the first character in the region.

    *)
}

A region within an artifact where a result was detected.

val show_region : region -> Ppx_deriving_runtime.string
val equal_region : region -> region -> Ppx_deriving_runtime.bool
val compare_region : region -> region -> Ppx_deriving_runtime.int
type attachment = {
  1. artifact_location : artifact_location;
    (*

    The location of the attachment.

    *)
  2. description : message option;
    (*

    A message describing the role played by the attachment.

    *)
  3. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the attachment.

    *)
  4. rectangles : rectangle list option;
    (*

    An array of rectangles specifying areas of interest within the image.

    *)
  5. regions : region list option;
    (*

    An array of regions of interest within the attachment.

    *)
}

An artifact relevant to a result.

val show_attachment : attachment -> Ppx_deriving_runtime.string
val equal_attachment : attachment -> attachment -> Ppx_deriving_runtime.bool
val compare_attachment : attachment -> attachment -> Ppx_deriving_runtime.int
type physical_location = {
  1. address : address option;
    (*

    The address of the location.

    *)
  2. artifact_location : artifact_location option;
    (*

    The location of the artifact.

    *)
  3. context_region : region option;
    (*

    Specifies a portion of the artifact that encloses the region. Allows a viewer to display additional context around the region.

    *)
  4. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the physical location.

    *)
  5. region : region option;
    (*

    Specifies a portion of the artifact.

    *)
}

A physical location relevant to a result. Specifies a reference to a programming artifact together with a range of bytes or characters within that artifact.

val show_physical_location : physical_location -> Ppx_deriving_runtime.string
val compare_physical_location : physical_location -> physical_location -> Ppx_deriving_runtime.int
type location = {
  1. annotations : region list option;
    (*

    A set of regions relevant to the location.

    *)
  2. id : int64;
    (*

    Value that distinguishes this location from all other locations within a single result object.

    *)
  3. logical_locations : logical_location list option;
    (*

    The logical locations associated with the result.

    *)
  4. message : message option;
    (*

    A message relevant to the location.

    *)
  5. physical_location : physical_location option;
    (*

    Identifies the artifact and region.

    *)
  6. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the location.

    *)
  7. relationships : location_relationship list option;
    (*

    An array of objects that describe relationships between this location and others.

    *)
}

A location within a programming artifact.

val show_location : location -> Ppx_deriving_runtime.string
val equal_location : location -> location -> Ppx_deriving_runtime.bool
val compare_location : location -> location -> Ppx_deriving_runtime.int
type replacement = {
  1. deleted_region : region;
    (*

    The region of the artifact to delete.

    *)
  2. inserted_content : artifact_content option;
    (*

    The content to insert at the location specified by the 'deletedRegion' property.

    *)
  3. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the replacement.

    *)
}

The replacement of a single region of an artifact.

val show_replacement : replacement -> Ppx_deriving_runtime.string
val equal_replacement : replacement -> replacement -> Ppx_deriving_runtime.bool
val compare_replacement : replacement -> replacement -> Ppx_deriving_runtime.int
type artifact_change = {
  1. artifact_location : artifact_location;
    (*

    The location of the artifact to change.

    *)
  2. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the change.

    *)
  3. replacements : replacement list;
    (*

    An array of replacement objects, each of which represents the replacement of a single region in a single artifact specified by 'artifactLocation'.

    *)
}

A change to a single artifact.

val show_artifact_change : artifact_change -> Ppx_deriving_runtime.string
val compare_artifact_change : artifact_change -> artifact_change -> Ppx_deriving_runtime.int
type fix = {
  1. artifact_changes : artifact_change list;
    (*

    One or more artifact changes that comprise a fix for a result.

    *)
  2. description : message option;
    (*

    A message that describes the proposed fix, enabling viewers to present the proposed change to an end user.

    *)
  3. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the fix.

    *)
}

A proposed fix for the problem represented by a result object. A fix specifies a set of artifacts to modify. For each artifact, it specifies a set of bytes to remove, and provides a set of new bytes to replace them.

val equal_fix : fix -> fix -> Ppx_deriving_runtime.bool
val compare_fix : fix -> fix -> Ppx_deriving_runtime.int
type reporting_configuration_level = [
  1. | `None
  2. | `Note
  3. | `Warning
  4. | `Error
]

Specifies the failure level for the report.

val show_reporting_configuration_level : reporting_configuration_level -> Ppx_deriving_runtime.string
type reporting_configuration = {
  1. enabled : bool;
    (*

    Specifies whether the report may be produced during the scan.

    *)
  2. level : reporting_configuration_level option;
    (*

    Specifies the failure level for the report.

    *)
  3. parameters : property_bag option;
    (*

    Contains configuration information specific to a report.

    *)
  4. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the reporting configuration.

    *)
  5. rank : int64;
}

Information about a rule or notification that can be configured at runtime.

val show_reporting_configuration : reporting_configuration -> Ppx_deriving_runtime.string
type reporting_descriptor_deprecated_guids_item = string

ReportingDescriptorDeprecatedGuidsItem

val show_reporting_descriptor_deprecated_guids_item : reporting_descriptor_deprecated_guids_item -> Ppx_deriving_runtime.string
type reporting_descriptor_guid = string

A unique identifier for the reporting descriptor in the form of a GUID.

val show_reporting_descriptor_guid : reporting_descriptor_guid -> Ppx_deriving_runtime.string
type reporting_descriptor_reference_guid = string

A guid that uniquely identifies the descriptor.

val show_reporting_descriptor_reference_guid : reporting_descriptor_reference_guid -> Ppx_deriving_runtime.string
type result_baseline_state = [
  1. | `New
  2. | `Unchanged
  3. | `Updated
  4. | `Absent
]

The state of a result relative to a baseline of a previous run.

val show_result_baseline_state : result_baseline_state -> Ppx_deriving_runtime.string
val compare_result_baseline_state : result_baseline_state -> result_baseline_state -> Ppx_deriving_runtime.int
type result_correlation_guid = string

A stable, unique identifier for the equivalence class of logically identical results to which this result belongs, in the form of a GUID.

val show_result_correlation_guid : result_correlation_guid -> Ppx_deriving_runtime.string
type result_guid = string

A stable, unique identifier for the result in the form of a GUID.

val show_result_guid : result_guid -> Ppx_deriving_runtime.string
val equal_result_guid : result_guid -> result_guid -> Ppx_deriving_runtime.bool
val compare_result_guid : result_guid -> result_guid -> Ppx_deriving_runtime.int
type result_kind = [
  1. | `NotApplicable
  2. | `Pass
  3. | `Fail
  4. | `Review
  5. | `Open
  6. | `Informational
]

A value that categorizes results by evaluation state.

val show_result_kind : result_kind -> Ppx_deriving_runtime.string
val equal_result_kind : result_kind -> result_kind -> Ppx_deriving_runtime.bool
val compare_result_kind : result_kind -> result_kind -> Ppx_deriving_runtime.int
type result_level = [
  1. | `None
  2. | `Note
  3. | `Warning
  4. | `Error
]

A value specifying the severity level of the result.

val show_result_level : result_level -> Ppx_deriving_runtime.string
val equal_result_level : result_level -> result_level -> Ppx_deriving_runtime.bool
val compare_result_level : result_level -> result_level -> Ppx_deriving_runtime.int
type result_provenance_first_detection_run_guid = string

A GUID-valued string equal to the automationDetails.guid property of the run in which the result was first detected.

val show_result_provenance_first_detection_run_guid : result_provenance_first_detection_run_guid -> Ppx_deriving_runtime.string
type result_provenance_last_detection_run_guid = string

A GUID-valued string equal to the automationDetails.guid property of the run in which the result was most recently detected.

val show_result_provenance_last_detection_run_guid : result_provenance_last_detection_run_guid -> Ppx_deriving_runtime.string
type result_provenance = {
  1. conversion_sources : physical_location list option;
    (*

    An array of physicalLocation objects which specify the portions of an analysis tool's output that a converter transformed into the result.

    *)
  2. first_detection_run_guid : result_provenance_first_detection_run_guid option;
    (*

    A GUID-valued string equal to the automationDetails.guid property of the run in which the result was first detected.

    *)
  3. first_detection_time_utc : string option;
    (*

    The Coordinated Universal Time (UTC) date and time at which the result was first detected. See "Date/time properties" in the SARIF spec for the required format.

    *)
  4. invocation_index : int64;
    (*

    The index within the run.invocations array of the invocation object which describes the tool invocation that detected the result.

    *)
  5. last_detection_run_guid : result_provenance_last_detection_run_guid option;
    (*

    A GUID-valued string equal to the automationDetails.guid property of the run in which the result was most recently detected.

    *)
  6. last_detection_time_utc : string option;
    (*

    The Coordinated Universal Time (UTC) date and time at which the result was most recently detected. See "Date/time properties" in the SARIF spec for the required format.

    *)
  7. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the result.

    *)
}

Contains information about how and when a result was detected.

val show_result_provenance : result_provenance -> Ppx_deriving_runtime.string
val compare_result_provenance : result_provenance -> result_provenance -> Ppx_deriving_runtime.int
type stack_frame = {
  1. location : location option;
    (*

    The location to which this stack frame refers.

    *)
  2. module_ : string option;
    (*

    The name of the module that contains the code of this stack frame.

    *)
  3. parameters : string list option;
    (*

    The parameters of the call that is executing.

    *)
  4. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the stack frame.

    *)
  5. thread_id : int64 option;
    (*

    The thread identifier of the stack frame.

    *)
}

A function call within a stack trace.

val show_stack_frame : stack_frame -> Ppx_deriving_runtime.string
val equal_stack_frame : stack_frame -> stack_frame -> Ppx_deriving_runtime.bool
val compare_stack_frame : stack_frame -> stack_frame -> Ppx_deriving_runtime.int
type stack = {
  1. frames : stack_frame list;
    (*

    An array of stack frames that represents a sequence of calls, rendered in reverse chronological order, that comprise the call stack.

    *)
  2. message : message option;
    (*

    A message relevant to this call stack.

    *)
  3. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the stack.

    *)
}

A call stack that is relevant to a result.

val equal_stack : stack -> stack -> Ppx_deriving_runtime.bool
val compare_stack : stack -> stack -> Ppx_deriving_runtime.int
type suppression_guid = string

A stable, unique identifier for the suprression in the form of a GUID.

val show_suppression_guid : suppression_guid -> Ppx_deriving_runtime.string
val compare_suppression_guid : suppression_guid -> suppression_guid -> Ppx_deriving_runtime.int
type suppression_kind = [
  1. | `InSource
  2. | `External
]

A string that indicates where the suppression is persisted.

val show_suppression_kind : suppression_kind -> Ppx_deriving_runtime.string
val compare_suppression_kind : suppression_kind -> suppression_kind -> Ppx_deriving_runtime.int
type suppression_status = [
  1. | `Accepted
  2. | `UnderReview
  3. | `Rejected
]

A string that indicates the review status of the suppression.

val show_suppression_status : suppression_status -> Ppx_deriving_runtime.string
val compare_suppression_status : suppression_status -> suppression_status -> Ppx_deriving_runtime.int
type suppression = {
  1. guid : suppression_guid option;
    (*

    A stable, unique identifier for the suprression in the form of a GUID.

    *)
  2. justification : string option;
    (*

    A string representing the justification for the suppression.

    *)
  3. kind : suppression_kind;
    (*

    A string that indicates where the suppression is persisted.

    *)
  4. location : location option;
    (*

    Identifies the location associated with the suppression.

    *)
  5. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the suppression.

    *)
  6. status : suppression_status option;
    (*

    A string that indicates the review status of the suppression.

    *)
}

A suppression that is relevant to a result.

val show_suppression : suppression -> Ppx_deriving_runtime.string
val equal_suppression : suppression -> suppression -> Ppx_deriving_runtime.bool
val compare_suppression : suppression -> suppression -> Ppx_deriving_runtime.int
type thread_flow_location_importance = [
  1. | `Important
  2. | `Essential
  3. | `Unimportant
]

Specifies the importance of this location in understanding the code flow in which it occurs. The order from most to least important is "essential", "important", "unimportant". Default: "important".

val show_thread_flow_location_importance : thread_flow_location_importance -> Ppx_deriving_runtime.string
type tool_component_contents_item = [
  1. | `LocalizedData
  2. | `NonLocalizedData
]

ToolComponentContentsItem

val show_tool_component_contents_item : tool_component_contents_item -> Ppx_deriving_runtime.string
type tool_component_dotted_quad_file_version = string

The binary version of the tool component's primary executable file expressed as four non-negative integers separated by a period (for operating systems that express file versions in this way).

val show_tool_component_dotted_quad_file_version : tool_component_dotted_quad_file_version -> Ppx_deriving_runtime.string
type tool_component_guid = string

A unique identifier for the tool component in the form of a GUID.

val show_tool_component_guid : tool_component_guid -> Ppx_deriving_runtime.string
val compare_tool_component_guid : tool_component_guid -> tool_component_guid -> Ppx_deriving_runtime.int
type tool_component_language = string

The language of the messages emitted into the log file during this run (expressed as an ISO 639-1 two-letter lowercase language code) and an optional region (expressed as an ISO 3166-1 two-letter uppercase subculture code associated with a country or region). The casing is recommended but not required (in order for this data to conform to RFC5646).

val show_tool_component_language : tool_component_language -> Ppx_deriving_runtime.string
type tool_component_reference_guid = string

The 'guid' property of the referenced toolComponent.

val show_tool_component_reference_guid : tool_component_reference_guid -> Ppx_deriving_runtime.string
type tool_component_reference = {
  1. guid : tool_component_reference_guid option;
    (*

    The 'guid' property of the referenced toolComponent.

    *)
  2. index : int64;
    (*

    An index into the referenced toolComponent in tool.extensions.

    *)
  3. name : string option;
    (*

    The 'name' property of the referenced toolComponent.

    *)
  4. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the toolComponentReference.

    *)
}

Identifies a particular toolComponent object, either the driver or an extension.

val show_tool_component_reference : tool_component_reference -> Ppx_deriving_runtime.string
type reporting_descriptor_reference = {
  1. guid : reporting_descriptor_reference_guid option;
    (*

    A guid that uniquely identifies the descriptor.

    *)
  2. id : string option;
    (*

    The id of the descriptor.

    *)
  3. index : int64;
    (*

    The index into an array of descriptors in toolComponent.ruleDescriptors, toolComponent.notificationDescriptors, or toolComponent.taxonomyDescriptors, depending on context.

    *)
  4. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the reporting descriptor reference.

    *)
  5. tool_component : tool_component_reference option;
    (*

    A reference used to locate the toolComponent associated with the descriptor.

    *)
}

Information about how to locate a relevant reporting descriptor.

val show_reporting_descriptor_reference : reporting_descriptor_reference -> Ppx_deriving_runtime.string
type configuration_override = {
  1. configuration : reporting_configuration;
    (*

    Specifies how the rule or notification was configured during the scan.

    *)
  2. descriptor : reporting_descriptor_reference;
    (*

    A reference used to locate the descriptor whose configuration was overridden.

    *)
  3. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the configuration override.

    *)
}

Information about how a specific rule or notification was reconfigured at runtime.

val show_configuration_override : configuration_override -> Ppx_deriving_runtime.string
type reporting_descriptor_relationship = {
  1. description : message option;
    (*

    A description of the reporting descriptor relationship.

    *)
  2. kinds : string list option;
    (*

    A set of distinct strings that categorize the relationship. Well-known kinds include 'canPrecede', 'canFollow', 'willPrecede', 'willFollow', 'superset', 'subset', 'equal', 'disjoint', 'relevant', and 'incomparable'.

    *)
  3. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the reporting descriptor reference.

    *)
  4. target : reporting_descriptor_reference;
    (*

    A reference to the related reporting descriptor.

    *)
}

Information about the relation of one reporting descriptor to another.

val show_reporting_descriptor_relationship : reporting_descriptor_relationship -> Ppx_deriving_runtime.string
type reporting_descriptor = {
  1. default_configuration : reporting_configuration option;
    (*

    Default reporting configuration information.

    *)
  2. deprecated_guids : reporting_descriptor_deprecated_guids_item list option;
    (*

    An array of unique identifies in the form of a GUID by which this report was known in some previous version of the analysis tool.

    *)
  3. deprecated_ids : string list option;
    (*

    An array of stable, opaque identifiers by which this report was known in some previous version of the analysis tool.

    *)
  4. deprecated_names : string list option;
    (*

    An array of readable identifiers by which this report was known in some previous version of the analysis tool.

    *)
  5. full_description : multiformat_message_string option;
    (*

    A description of the report. Should, as far as possible, provide details sufficient to enable resolution of any problem indicated by the result.

    *)
  6. guid : reporting_descriptor_guid option;
    (*

    A unique identifier for the reporting descriptor in the form of a GUID.

    *)
  7. help : multiformat_message_string option;
    (*

    Provides the primary documentation for the report, useful when there is no online documentation.

    *)
  8. help_uri : string option;
    (*

    A URI where the primary documentation for the report can be found.

    *)
  9. id : string;
    (*

    A stable, opaque identifier for the report.

    *)
  10. message_strings : hm_str_mms option;
    (*

    A set of name/value pairs with arbitrary names. Each value is a multiformatMessageString object, which holds message strings in plain text and (optionally) Markdown format. The strings can include placeholders, which can be used to construct a message in combination with an arbitrary number of additional string arguments.

    *)
  11. name : string option;
    (*

    A report identifier that is understandable to an end user.

    *)
  12. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the report.

    *)
  13. relationships : reporting_descriptor_relationship list option;
    (*

    An array of objects that describe relationships between this reporting descriptor and others.

    *)
  14. short_description : multiformat_message_string option;
    (*

    A concise description of the report. Should be a single sentence that is understandable when visible space is limited to a single line of text.

    *)
}

Metadata that describes a specific report produced by the tool, as part of the analysis it provides or its runtime reporting.

val show_reporting_descriptor : reporting_descriptor -> Ppx_deriving_runtime.string
val compare_reporting_descriptor : reporting_descriptor -> reporting_descriptor -> Ppx_deriving_runtime.int
type translation_metadata = {
  1. download_uri : string option;
    (*

    The absolute URI from which the translation metadata can be downloaded.

    *)
  2. full_description : multiformat_message_string option;
    (*

    A comprehensive description of the translation metadata.

    *)
  3. full_name : string option;
    (*

    The full name associated with the translation metadata.

    *)
  4. information_uri : string option;
    (*

    The absolute URI from which information related to the translation metadata can be downloaded.

    *)
  5. name : string;
    (*

    The name associated with the translation metadata.

    *)
  6. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the translation metadata.

    *)
  7. short_description : multiformat_message_string option;
    (*

    A brief description of the translation metadata.

    *)
}

Provides additional metadata related to translation.

val show_translation_metadata : translation_metadata -> Ppx_deriving_runtime.string
val compare_translation_metadata : translation_metadata -> translation_metadata -> Ppx_deriving_runtime.int
type tool_component = {
  1. associated_component : tool_component_reference option;
    (*

    The component which is strongly associated with this component. For a translation, this refers to the component which has been translated. For an extension, this is the driver that provides the extension's plugin model.

    *)
  2. contents : tool_component_contents_item list option;
    (*

    The kinds of data contained in this object.

    *)
  3. dotted_quad_file_version : tool_component_dotted_quad_file_version option;
    (*

    The binary version of the tool component's primary executable file expressed as four non-negative integers separated by a period (for operating systems that express file versions in this way).

    *)
  4. download_uri : string option;
    (*

    The absolute URI from which the tool component can be downloaded.

    *)
  5. full_description : multiformat_message_string option;
    (*

    A comprehensive description of the tool component.

    *)
  6. full_name : string option;
    (*

    The name of the tool component along with its version and any other useful identifying information, such as its locale.

    *)
  7. global_message_strings : hm_str_mms option;
    (*

    A dictionary, each of whose keys is a resource identifier and each of whose values is a multiformatMessageString object, which holds message strings in plain text and (optionally) Markdown format. The strings can include placeholders, which can be used to construct a message in combination with an arbitrary number of additional string arguments.

    *)
  8. guid : tool_component_guid option;
    (*

    A unique identifier for the tool component in the form of a GUID.

    *)
  9. information_uri : string option;
    (*

    The absolute URI at which information about this version of the tool component can be found.

    *)
  10. is_comprehensive : bool;
    (*

    Specifies whether this object contains a complete definition of the localizable and/or non-localizable data for this component, as opposed to including only data that is relevant to the results persisted to this log file.

    *)
  11. language : tool_component_language option;
    (*

    The language of the messages emitted into the log file during this run (expressed as an ISO 639-1 two-letter lowercase language code) and an optional region (expressed as an ISO 3166-1 two-letter uppercase subculture code associated with a country or region). The casing is recommended but not required (in order for this data to conform to RFC5646).

    *)
  12. localized_data_semantic_version : string option;
    (*

    The semantic version of the localized strings defined in this component; maintained by components that provide translations.

    *)
  13. locations : artifact_location list option;
    (*

    An array of the artifactLocation objects associated with the tool component.

    *)
  14. minimum_required_localized_data_semantic_version : string option;
    (*

    The minimum value of localizedDataSemanticVersion required in translations consumed by this component; used by components that consume translations.

    *)
  15. name : string;
    (*

    The name of the tool component.

    *)
  16. notifications : reporting_descriptor list option;
    (*

    An array of reportingDescriptor objects relevant to the notifications related to the configuration and runtime execution of the tool component.

    *)
  17. organization : string option;
    (*

    The organization or company that produced the tool component.

    *)
  18. product : string option;
    (*

    A product suite to which the tool component belongs.

    *)
  19. product_suite : string option;
    (*

    A localizable string containing the name of the suite of products to which the tool component belongs.

    *)
  20. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the tool component.

    *)
  21. release_date_utc : string option;
    (*

    A string specifying the UTC date (and optionally, the time) of the component's release.

    *)
  22. rules : reporting_descriptor list option;
    (*

    An array of reportingDescriptor objects relevant to the analysis performed by the tool component.

    *)
  23. semantic_version : string option;
    (*

    The tool component version in the format specified by Semantic Versioning 2.0.

    *)
  24. short_description : multiformat_message_string option;
    (*

    A brief description of the tool component.

    *)
  25. supported_taxonomies : tool_component_reference list option;
    (*

    An array of toolComponentReference objects to declare the taxonomies supported by the tool component.

    *)
  26. taxa : reporting_descriptor list option;
    (*

    An array of reportingDescriptor objects relevant to the definitions of both standalone and tool-defined taxonomies.

    *)
  27. translation_metadata : translation_metadata option;
    (*

    Translation metadata, required for a translation, not populated by other component types.

    *)
  28. version : string option;
    (*

    The tool component version, in whatever format the component natively provides.

    *)
}

A component, such as a plug-in or the driver, of the analysis tool that was run.

val show_tool_component : tool_component -> Ppx_deriving_runtime.string
val compare_tool_component : tool_component -> tool_component -> Ppx_deriving_runtime.int
type tool = {
  1. driver : tool_component;
    (*

    The analysis tool that was run.

    *)
  2. extensions : tool_component list option;
    (*

    Tool extensions that contributed to or reconfigured the analysis tool that was run.

    *)
  3. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the tool.

    *)
}

The analysis tool that was run.

val equal_tool : tool -> tool -> Ppx_deriving_runtime.bool
val compare_tool : tool -> tool -> Ppx_deriving_runtime.int
type web_request = {
  1. body : artifact_content option;
    (*

    The body of the request.

    *)
  2. headers : hm_str_str option;
    (*

    The request headers.

    *)
  3. index : int64;
    (*

    The index within the run.webRequests array of the request object associated with this result.

    *)
  4. method_ : string option;
    (*

    The HTTP method. Well-known values are 'GET', 'PUT', 'POST', 'DELETE', 'PATCH', 'HEAD', 'OPTIONS', 'TRACE', 'CONNECT'.

    *)
  5. parameters : hm_str_str option;
    (*

    The request parameters.

    *)
  6. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the request.

    *)
  7. protocol : string option;
    (*

    The request protocol. Example: 'http'.

    *)
  8. target : string option;
    (*

    The target of the request.

    *)
  9. version : string option;
    (*

    The request version. Example: '1.1'.

    *)
}

Describes an HTTP request.

val show_web_request : web_request -> Ppx_deriving_runtime.string
val equal_web_request : web_request -> web_request -> Ppx_deriving_runtime.bool
val compare_web_request : web_request -> web_request -> Ppx_deriving_runtime.int
type web_response = {
  1. body : artifact_content option;
    (*

    The body of the request.

    *)
  2. headers : hm_str_str option;
    (*

    The request headers.

    *)
  3. index : int64;
    (*

    The index within the run.webRequests array of the request object associated with this result.

    *)
  4. no_response_received : bool;
    (*

    Specifies whether a response was received from the server.

    *)
  5. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the request.

    *)
  6. protocol : string option;
    (*

    The request protocol. Example: 'http'.

    *)
  7. reason_phrase : string option;
    (*

    The response reason. Example: 'Not found'.

    *)
  8. status_code : string option;
    (*

    The response status code. Example: 451.

    *)
  9. version : string option;
    (*

    The request version. Example: '1.1'.

    *)
}

Describes the response to an HTTP request.

val show_web_response : web_response -> Ppx_deriving_runtime.string
val equal_web_response : web_response -> web_response -> Ppx_deriving_runtime.bool
val compare_web_response : web_response -> web_response -> Ppx_deriving_runtime.int
type thread_flow_location = {
  1. execution_order : int64;
    (*

    An integer representing the temporal order in which execution reached this location.

    *)
  2. execution_time_utc : string option;
    (*

    The Coordinated Universal Time (UTC) date and time at which this location was executed.

    *)
  3. importance : thread_flow_location_importance option;
    (*

    Specifies the importance of this location in understanding the code flow in which it occurs. The order from most to least important is "essential", "important", "unimportant". Default: "important".

    *)
  4. index : int64;
    (*

    he index within the run threadFlowLocations array.

    *)
  5. kinds : string list option;
    (*

    A set of distinct strings that categorize the thread flow location. Well-known kinds include 'acquire', 'release', 'enter', 'exit', 'call', 'return', 'branch', 'implicit', 'false', 'true', 'caution', 'danger', 'unknown', 'unreachable', 'taint', 'function', 'handler', 'lock', 'memory', 'resource', 'scope' and 'value'.

    *)
  6. location : location option;
    (*

    The code location.

    *)
  7. module_ : string option;
    (*

    The name of the module that contains the code that is executing.

    *)
  8. nesting_level : int64 option;
    (*

    An integer representing a containment hierarchy within the thread flow.

    *)
  9. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the threadflow location.

    *)
  10. stack : stack option;
    (*

    The call stack leading to this location.

    *)
  11. state : hm_str_mms option;
    (*

    A dictionary, each of whose keys specifies a variable or expression, the associated value of which represents the variable or expression value. For an annotation of kind 'continuation', for example, this dictionary might hold the current assumed values of a set of global variables.

    *)
  12. taxa : reporting_descriptor_reference list option;
    (*

    An array of references to rule or taxonomy reporting descriptors that are applicable to the thread flow location.

    *)
  13. web_request : web_request option;
    (*

    A web request associated with this thread flow location.

    *)
  14. web_response : web_response option;
    (*

    A web response associated with this thread flow location.

    *)
}

A location visited by an analysis tool while simulating or monitoring the execution of a program.

val show_thread_flow_location : thread_flow_location -> Ppx_deriving_runtime.string
val compare_thread_flow_location : thread_flow_location -> thread_flow_location -> Ppx_deriving_runtime.int
type thread_flow = {
  1. id : string option;
    (*

    An string that uniquely identifies the threadFlow within the codeFlow in which it occurs.

    *)
  2. immutable_state : hm_str_mms option;
    (*

    Values of relevant expressions at the start of the thread flow that remain constant.

    *)
  3. initial_state : hm_str_mms option;
    (*

    Values of relevant expressions at the start of the thread flow that may change during thread flow execution.

    *)
  4. locations : thread_flow_location list;
    (*

    A temporally ordered array of 'threadFlowLocation' objects, each of which describes a location visited by the tool while producing the result.

    *)
  5. message : message option;
    (*

    A message relevant to the thread flow.

    *)
  6. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the thread flow.

    *)
}

Describes a sequence of code locations that specify a path through a single thread of execution such as an operating system or fiber.

val show_thread_flow : thread_flow -> Ppx_deriving_runtime.string
val equal_thread_flow : thread_flow -> thread_flow -> Ppx_deriving_runtime.bool
val compare_thread_flow : thread_flow -> thread_flow -> Ppx_deriving_runtime.int
type code_flow = {
  1. message : message option;
    (*

    A message relevant to the code flow.

    *)
  2. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the code flow.

    *)
  3. thread_flows : thread_flow list;
    (*

    An array of one or more unique threadFlow objects, each of which describes the progress of a program through a thread of execution.

    *)
}

A set of threadFlows which together describe a pattern of code execution relevant to detecting a result.

val show_code_flow : code_flow -> Ppx_deriving_runtime.string
val equal_code_flow : code_flow -> code_flow -> Ppx_deriving_runtime.bool
val compare_code_flow : code_flow -> code_flow -> Ppx_deriving_runtime.int
type node = {
  1. children : node list option;
    (*

    Array of child nodes.

    *)
  2. id : string;
    (*

    A string that uniquely identifies the node within its graph.

    *)
  3. label : message option;
    (*

    A short description of the node.

    *)
  4. location : location option;
    (*

    A code location associated with the node.

    *)
  5. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the node.

    *)
}

Represents a node in a graph.

val equal_node : node -> node -> Ppx_deriving_runtime.bool
val compare_node : node -> node -> Ppx_deriving_runtime.int
type exception_ = {
  1. inner_exceptions : exception_ list option;
    (*

    An array of exception objects each of which is considered a cause of this exception.

    *)
  2. kind : string option;
    (*

    A string that identifies the kind of exception, for example, the fully qualified type name of an object that was thrown, or the symbolic name of a signal.

    *)
  3. message : string option;
    (*

    A message that describes the exception.

    *)
  4. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the exception.

    *)
  5. stack : stack option;
    (*

    The sequence of function calls leading to the exception.

    *)
}

Describes a runtime exception encountered during the execution of an analysis tool.

val show_exception_ : exception_ -> Ppx_deriving_runtime.string
val equal_exception_ : exception_ -> exception_ -> Ppx_deriving_runtime.bool
val compare_exception_ : exception_ -> exception_ -> Ppx_deriving_runtime.int
type graph = {
  1. description : message option;
    (*

    A description of the graph.

    *)
  2. edges : edge list option;
    (*

    An array of edge objects representing the edges of the graph.

    *)
  3. nodes : node list option;
    (*

    An array of node objects representing the nodes of the graph.

    *)
  4. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the graph.

    *)
}

A network of nodes and directed edges that describes some aspect of the structure of the code (for example, a call graph).

val equal_graph : graph -> graph -> Ppx_deriving_runtime.bool
val compare_graph : graph -> graph -> Ppx_deriving_runtime.int
type result = {
  1. analysis_target : artifact_location option;
    (*

    Identifies the artifact that the analysis tool was instructed to scan. This need not be the same as the artifact where the result actually occurred.

    *)
  2. attachments : attachment list option;
    (*

    A set of artifacts relevant to the result.

    *)
  3. baseline_state : result_baseline_state option;
    (*

    The state of a result relative to a baseline of a previous run.

    *)
  4. code_flows : code_flow list option;
    (*

    An array of 'codeFlow' objects relevant to the result.

    *)
  5. correlation_guid : result_correlation_guid option;
    (*

    A stable, unique identifier for the equivalence class of logically identical results to which this result belongs, in the form of a GUID.

    *)
  6. fingerprints : hm_str_str option;
    (*

    A set of strings each of which individually defines a stable, unique identity for the result.

    *)
  7. fixes : fix list option;
    (*

    An array of 'fix' objects, each of which represents a proposed fix to the problem indicated by the result.

    *)
  8. graph_traversals : graph_traversal list option;
    (*

    An array of one or more unique 'graphTraversal' objects.

    *)
  9. graphs : graph list option;
    (*

    An array of zero or more unique graph objects associated with the result.

    *)
  10. guid : result_guid option;
    (*

    A stable, unique identifier for the result in the form of a GUID.

    *)
  11. hosted_viewer_uri : string option;
    (*

    An absolute URI at which the result can be viewed.

    *)
  12. kind : result_kind option;
    (*

    A value that categorizes results by evaluation state.

    *)
  13. level : result_level option;
    (*

    A value specifying the severity level of the result.

    *)
  14. locations : location list option;
    (*

    The set of locations where the result was detected. Specify only one location unless the problem indicated by the result can only be corrected by making a change at every specified location.

    *)
  15. message : message;
    (*

    A message that describes the result. The first sentence of the message only will be displayed when visible space is limited.

    *)
  16. occurrence_count : int64 option;
    (*

    A positive integer specifying the number of times this logically unique result was observed in this run.

    *)
  17. partial_fingerprints : hm_str_str option;
    (*

    A set of strings that contribute to the stable, unique identity of the result.

    *)
  18. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the result.

    *)
  19. provenance : result_provenance option;
    (*

    Information about how and when the result was detected.

    *)
  20. rank : int64;
  21. related_locations : location list option;
    (*

    A set of locations relevant to this result.

    *)
  22. rule : reporting_descriptor_reference option;
    (*

    A reference used to locate the rule descriptor relevant to this result.

    *)
  23. rule_id : string option;
    (*

    The stable, unique identifier of the rule, if any, to which this result is relevant.

    *)
  24. rule_index : int64;
    (*

    The index within the tool component rules array of the rule object associated with this result.

    *)
  25. stacks : stack list option;
    (*

    An array of 'stack' objects relevant to the result.

    *)
  26. suppressions : suppression list option;
    (*

    A set of suppressions relevant to this result.

    *)
  27. taxa : reporting_descriptor_reference list option;
    (*

    An array of references to taxonomy reporting descriptors that are applicable to the result.

    *)
  28. web_request : web_request option;
    (*

    A web request associated with this result.

    *)
  29. web_response : web_response option;
    (*

    A web response associated with this result.

    *)
  30. work_item_uris : string list option;
    (*

    The URIs of the work items associated with this result.

    *)
}

A result produced by an analysis tool.

val show_result : result -> Ppx_deriving_runtime.string
val equal_result : result -> result -> Ppx_deriving_runtime.bool
val compare_result : result -> result -> Ppx_deriving_runtime.int
type notification = {
  1. associated_rule : reporting_descriptor_reference option;
    (*

    A reference used to locate the rule descriptor associated with this notification.

    *)
  2. descriptor : reporting_descriptor_reference option;
    (*

    A reference used to locate the descriptor relevant to this notification.

    *)
  3. exception_ : exception_ option;
    (*

    The runtime exception, if any, relevant to this notification.

    *)
  4. level : notification_level option;
    (*

    A value specifying the severity level of the notification.

    *)
  5. locations : location list option;
    (*

    The locations relevant to this notification.

    *)
  6. message : message;
    (*

    A message that describes the condition that was encountered.

    *)
  7. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the notification.

    *)
  8. thread_id : int64 option;
    (*

    The thread identifier of the code that generated the notification.

    *)
  9. time_utc : string option;
    (*

    The Coordinated Universal Time (UTC) date and time at which the analysis tool generated the notification.

    *)
}

Describes a condition relevant to the tool itself, as opposed to being relevant to a target being analyzed by the tool.

val show_notification : notification -> Ppx_deriving_runtime.string
val equal_notification : notification -> notification -> Ppx_deriving_runtime.bool
val compare_notification : notification -> notification -> Ppx_deriving_runtime.int
type invocation = {
  1. account : string option;
    (*

    The account under which the invocation occurred.

    *)
  2. arguments : string option;
    (*

    An array of strings, containing in order the command line arguments passed to the tool from the operating system.

    *)
  3. command_line : string option;
    (*

    The command line used to invoke the tool.

    *)
  4. end_time_utc : string option;
    (*

    The Coordinated Universal Time (UTC) date and time at which the invocation ended. See "Date/time properties" in the SARIF spec for the required format.

    *)
  5. environment_variables : hm_str_str option;
    (*

    The environment variables associated with the analysis tool process, expressed as key/value pairs.

    *)
  6. executable_location : artifact_location option;
    (*

    An absolute URI specifying the location of the executable that was invoked.

    *)
  7. execution_successful : bool;
    (*

    Specifies whether the tool's execution completed successfully.

    *)
  8. exit_code : int64 option;
    (*

    The process exit code.

    *)
  9. exit_code_description : string option;
    (*

    The reason for the process exit.

    *)
  10. exit_signal_name : string option;
    (*

    The name of the signal that caused the process to exit.

    *)
  11. exit_signal_number : int64 option;
    (*

    The numeric value of the signal that caused the process to exit.

    *)
  12. notification_configuration_overrides : configuration_override list option;
    (*

    An array of configurationOverride objects that describe notifications related runtime overrides.

    *)
  13. process_id : int64 option;
    (*

    The id of the process in which the invocation occurred.

    *)
  14. process_start_failure_message : string option;
    (*

    The reason given by the operating system that the process failed to start.

    *)
  15. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the invocation.

    *)
  16. response_files : artifact_location list option;
    (*

    The locations of any response files specified on the tool's command line.

    *)
  17. rule_configuration_overrides : configuration_override list option;
    (*

    An array of configurationOverride objects that describe rules related runtime overrides.

    *)
  18. start_time_utc : string option;
    (*

    The Coordinated Universal Time (UTC) date and time at which the invocation started. See "Date/time properties" in the SARIF spec for the required format.

    *)
  19. stderr : artifact_location option;
    (*

    A file containing the standard error stream from the process that was invoked.

    *)
  20. stdin : artifact_location option;
    (*

    A file containing the standard input stream to the process that was invoked.

    *)
  21. stdout : artifact_location option;
    (*

    A file containing the standard output stream from the process that was invoked.

    *)
  22. stdout_stderr : artifact_location option;
    (*

    A file containing the interleaved standard output and standard error stream from the process that was invoked.

    *)
  23. tool_configuration_notifications : notification list option;
    (*

    A list of conditions detected by the tool that are relevant to the tool's configuration.

    *)
  24. tool_execution_notifications : notification list option;
    (*

    A list of runtime conditions detected by the tool during the analysis.

    *)
  25. working_directory : artifact_location option;
    (*

    The working directory for the invocation.

    *)
}

The runtime environment of the analysis tool run.

val show_invocation : invocation -> Ppx_deriving_runtime.string
val equal_invocation : invocation -> invocation -> Ppx_deriving_runtime.bool
val compare_invocation : invocation -> invocation -> Ppx_deriving_runtime.int
type conversion = {
  1. analysis_tool_log_files : artifact_location list option;
    (*

    The locations of the analysis tool's per-run log files.

    *)
  2. invocation : invocation option;
    (*

    An invocation object that describes the invocation of the converter.

    *)
  3. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the conversion.

    *)
  4. tool : tool;
    (*

    A tool object that describes the converter.

    *)
}

Describes how a converter transformed the output of a static analysis tool from the analysis tool's native output format into the SARIF format.

val show_conversion : conversion -> Ppx_deriving_runtime.string
val equal_conversion : conversion -> conversion -> Ppx_deriving_runtime.bool
val compare_conversion : conversion -> conversion -> Ppx_deriving_runtime.int
type artifact = {
  1. contents : artifact_content option;
    (*

    The contents of the artifact.

    *)
  2. description : message option;
    (*

    A short description of the artifact.

    *)
  3. encoding : string option;
    (*

    Specifies the encoding for an artifact object that refers to a text file.

    *)
  4. hashes : hm_str_str option;
    (*

    A dictionary, each of whose keys is the name of a hash function and each of whose values is the hashed value of the artifact produced by the specified hash function.

    *)
  5. last_modified_time_utc : string option;
    (*

    The Coordinated Universal Time (UTC) date and time at which the artifact was most recently modified. See "Date/time properties" in the SARIF spec for the required format.

    *)
  6. length : int64;
    (*

    The length of the artifact in bytes.

    *)
  7. location : artifact_location option;
    (*

    The location of the artifact.

    *)
  8. mime_type : artifact_mimetype option;
    (*

    The MIME type (RFC 2045) of the artifact.

    *)
  9. offset : int64 option;
    (*

    The offset in bytes of the artifact within its containing artifact.

    *)
  10. parent_index : int64;
    (*

    Identifies the index of the immediate parent of the artifact, if this artifact is nested.

    *)
  11. properties : external_properties option;
    (*

    Key/value pairs that provide additional information about the artifact.

    *)
  12. roles : artifact_roles_item list option;
    (*

    The role or roles played by the artifact in the analysis.

    *)
  13. source_language : string option;
    (*

    Specifies the source language for any artifact object that refers to a text file that contains source code.

    *)
}

A single artifact. In some cases, this artifact might be nested within another artifact.

and external_properties = {
  1. addresses : address list option;
    (*

    Addresses that will be merged with a separate run.

    *)
  2. artifacts : artifact list option;
    (*

    An array of artifact objects that will be merged with a separate run.

    *)
  3. conversion : conversion option;
    (*

    A conversion object that will be merged with a separate run.

    *)
  4. driver : tool_component option;
    (*

    The analysis tool object that will be merged with a separate run.

    *)
  5. extensions : tool_component list option;
    (*

    Tool extensions that will be merged with a separate run.

    *)
  6. externalized_properties : property_bag option;
    (*

    Key/value pairs that provide additional information that will be merged with a separate run.

    *)
  7. graph : graph list option;
    (*

    An array of graph objects that will be merged with a separate run.

    *)
  8. guid : external_properties_guid option;
    (*

    A stable, unique identifier for this external properties object, in the form of a GUID.

    *)
  9. invocations : invocation option;
    (*

    Describes the invocation of the analysis tool that will be merged with a separate run.

    *)
  10. logical_locations : logical_location list option;
    (*

    An array of logical locations such as namespaces, types or functions that will be merged with a separate run.

    *)
  11. policies : tool_component list option;
    (*

    Tool policies that will be merged with a separate run.

    *)
  12. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the external properties.

    *)
  13. results : result option;
    (*

    An array of result objects that will be merged with a separate run.

    *)
  14. run_guid : external_properties_run_guid option;
    (*

    A stable, unique identifier for the run associated with this external properties object, in the form of a GUID.

    *)
  15. schema : string option;
    (*

    The URI of the JSON schema corresponding to the version of the external property file format.

    *)
  16. taxonomies : tool_component list option;
    (*

    Tool taxonomies that will be merged with a separate run.

    *)
  17. thread_flow_locations : thread_flow_location list option;
    (*

    An array of threadFlowLocation objects that will be merged with a separate run.

    *)
  18. translations : tool_component list option;
    (*

    Tool translations that will be merged with a separate run.

    *)
  19. version : external_properties_version option;
    (*

    The SARIF format version of this external properties object.

    *)
  20. web_requests : web_request list option;
    (*

    Requests that will be merged with a separate run.

    *)
  21. web_responses : web_response list option;
    (*

    Responses that will be merged with a separate run.

    *)
}

The top-level element of an external property file.

val show_artifact : artifact -> Ppx_deriving_runtime.string
val show_external_properties : external_properties -> Ppx_deriving_runtime.string
val equal_artifact : artifact -> artifact -> Ppx_deriving_runtime.bool
val compare_artifact : artifact -> artifact -> Ppx_deriving_runtime.int
val compare_external_properties : external_properties -> external_properties -> Ppx_deriving_runtime.int
type version_control_details = {
  1. as_of_time_utc : string option;
    (*

    A Coordinated Universal Time (UTC) date and time that can be used to synchronize an enlistment to the state of the repository at that time.

    *)
  2. branch : string option;
    (*

    The name of a branch containing the revision.

    *)
  3. mapped_to : artifact_location option;
    (*

    The location in the local file system to which the root of the repository was mapped at the time of the analysis.

    *)
  4. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the version control details.

    *)
  5. repository_uri : string;
    (*

    The absolute URI of the repository.

    *)
  6. revision_id : string option;
    (*

    A string that uniquely and permanently identifies the revision within the repository.

    *)
  7. revision_tag : string option;
    (*

    A tag that has been applied to the revision.

    *)
}

Specifies the information necessary to retrieve a desired revision from a version control system.

val show_version_control_details : version_control_details -> Ppx_deriving_runtime.string
type special_locations = {
  1. display_base : artifact_location option;
    (*

    Provides a suggestion to SARIF consumers to display file paths relative to the specified location.

    *)
  2. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the special locations.

    *)
}

Defines locations of special significance to SARIF consumers.

val show_special_locations : special_locations -> Ppx_deriving_runtime.string
val compare_special_locations : special_locations -> special_locations -> Ppx_deriving_runtime.int
type sarif_version = [
  1. | `TwoDotOneDotZero
]
val show_sarif_version : sarif_version -> Ppx_deriving_runtime.string
val equal_sarif_version : sarif_version -> sarif_version -> Ppx_deriving_runtime.bool
val compare_sarif_version : sarif_version -> sarif_version -> Ppx_deriving_runtime.int
type run_language = string

The language of the messages emitted into the log file during this run (expressed as an ISO 639-1 two-letter lowercase culture code) and an optional region (expressed as an ISO 3166-1 two-letter uppercase subculture code associated with a country or region). The casing is recommended but not required (in order for this data to conform to RFC5646).

val show_run_language : run_language -> Ppx_deriving_runtime.string
val equal_run_language : run_language -> run_language -> Ppx_deriving_runtime.bool
val compare_run_language : run_language -> run_language -> Ppx_deriving_runtime.int
type run_column_kind = [
  1. | `Utf16CodeUnits
  2. | `UnicodeCodePoints
]

Specifies the unit in which the tool measures columns.

val show_run_column_kind : run_column_kind -> Ppx_deriving_runtime.string
val compare_run_column_kind : run_column_kind -> run_column_kind -> Ppx_deriving_runtime.int
type run_baseline_guid = string

The 'guid' property of a previous SARIF 'run' that comprises the baseline that was used to compute result 'baselineState' properties for the run.

val show_run_baseline_guid : run_baseline_guid -> Ppx_deriving_runtime.string
val compare_run_baseline_guid : run_baseline_guid -> run_baseline_guid -> Ppx_deriving_runtime.int
type run_automation_details_guid = string

A stable, unique identifier for this object's containing run object in the form of a GUID.

val show_run_automation_details_guid : run_automation_details_guid -> Ppx_deriving_runtime.string
type run_automation_details_correlation_guid = string

A stable, unique identifier for the equivalence class of runs to which this object's containing run object belongs in the form of a GUID.

val show_run_automation_details_correlation_guid : run_automation_details_correlation_guid -> Ppx_deriving_runtime.string
type run_automation_details = {
  1. correlation_guid : run_automation_details_correlation_guid option;
    (*

    A stable, unique identifier for the equivalence class of runs to which this object's containing run object belongs in the form of a GUID.

    *)
  2. description : message option;
    (*

    A description of the identity and role played within the engineering system by this object's containing run object.

    *)
  3. guid : run_automation_details_guid option;
    (*

    A stable, unique identifier for this object's containing run object in the form of a GUID.

    *)
  4. id : string option;
    (*

    A hierarchical string that uniquely identifies this object's containing run object.

    *)
  5. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the run automation details.

    *)
}

Information that describes a run's identity and role within an engineering system process.

val show_run_automation_details : run_automation_details -> Ppx_deriving_runtime.string
type hm_str_al = (string * artifact_location) list
val show_hm_str_al : hm_str_al -> Ppx_deriving_runtime.string
val equal_hm_str_al : hm_str_al -> hm_str_al -> Ppx_deriving_runtime.bool
val compare_hm_str_al : hm_str_al -> hm_str_al -> Ppx_deriving_runtime.int
type external_property_file_reference_guid = string

A stable, unique identifier for the external property file in the form of a GUID.

val show_external_property_file_reference_guid : external_property_file_reference_guid -> Ppx_deriving_runtime.string
type external_property_file_reference = {
  1. guid : external_property_file_reference_guid option;
    (*

    A stable, unique identifier for the external property file in the form of a GUID.

    *)
  2. item_count : int64;
    (*

    A non-negative integer specifying the number of items contained in the external property file.

    *)
  3. location : artifact_location option;
    (*

    The location of the external property file.

    *)
  4. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the external property file.

    *)
}

Contains information that enables a SARIF consumer to locate the external property file that contains the value of an externalized property associated with the run.

val show_external_property_file_reference : external_property_file_reference -> Ppx_deriving_runtime.string
type external_property_file_references = {
  1. addresses : external_property_file_reference list option;
    (*

    An array of external property files containing run.addresses arrays to be merged with the root log file.

    *)
  2. artifacts : external_property_file_reference list option;
    (*

    An array of external property files containing run.artifacts arrays to be merged with the root log file.

    *)
  3. conversion : external_property_file_reference option;
    (*

    An external property file containing a run.conversion object to be merged with the root log file.

    *)
  4. driver : external_property_file_reference option;
    (*

    An external property file containing a run.driver object to be merged with the root log file.

    *)
  5. extensions : external_property_file_reference list option;
    (*

    An array of external property files containing run.extensions arrays to be merged with the root log file.

    *)
  6. externalized_properties : external_property_file_reference option;
    (*

    An external property file containing a run.properties object to be merged with the root log file.

    *)
  7. graphs : external_property_file_reference list option;
    (*

    An array of external property files containing a run.graphs object to be merged with the root log file.

    *)
  8. invocations : external_property_file_reference list option;
    (*

    An array of external property files containing run.invocations arrays to be merged with the root log file.

    *)
  9. logical_locations : external_property_file_reference list option;
    (*

    An array of external property files containing run.logicalLocations arrays to be merged with the root log file.

    *)
  10. policies : external_property_file_reference list option;
    (*

    An array of external property files containing run.policies arrays to be merged with the root log file.

    *)
  11. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the external property files.

    *)
  12. results : external_property_file_reference list option;
    (*

    An array of external property files containing run.results arrays to be merged with the root log file.

    *)
  13. taxonomies : external_property_file_reference list option;
    (*

    An array of external property files containing run.taxonomies arrays to be merged with the root log file.

    *)
  14. thread_flow_locations : external_property_file_reference list option;
    (*

    An array of external property files containing run.threadFlowLocations arrays to be merged with the root log file.

    *)
  15. translations : external_property_file_reference list option;
    (*

    An array of external property files containing run.translations arrays to be merged with the root log file.

    *)
  16. web_requests : external_property_file_reference list option;
    (*

    An array of external property files containing run.requests arrays to be merged with the root log file.

    *)
  17. web_responses : external_property_file_reference list option;
    (*

    An array of external property files containing run.responses arrays to be merged with the root log file.

    *)
}

References to external property files that should be inlined with the content of a root log file.

val show_external_property_file_references : external_property_file_references -> Ppx_deriving_runtime.string
type run = {
  1. addresses : address list option;
    (*

    Addresses associated with this run instance, if any.

    *)
  2. artifacts : artifact list option;
    (*

    An array of artifact objects relevant to the run.

    *)
  3. automation_details : run_automation_details option;
    (*

    Automation details that describe this run.

    *)
  4. baseline_guid : run_baseline_guid option;
    (*

    The 'guid' property of a previous SARIF 'run' that comprises the baseline that was used to compute result 'baselineState' properties for the run.

    *)
  5. column_kind : run_column_kind option;
    (*

    Specifies the unit in which the tool measures columns.

    *)
  6. conversion : conversion option;
    (*

    A conversion object that describes how a converter transformed an analysis tool's native reporting format into the SARIF format.

    *)
  7. default_encoding : string option;
    (*

    Specifies the default encoding for any artifact object that refers to a text file.

    *)
  8. default_source_language : string option;
    (*

    Specifies the default source language for any artifact object that refers to a text file that contains source code.

    *)
  9. external_property_file_references : external_property_file_references option;
    (*

    References to external property files that should be inlined with the content of a root log file.

    *)
  10. graphs : graph list option;
    (*

    An array of zero or more unique graph objects associated with the run.

    *)
  11. invocations : invocation list option;
    (*

    Describes the invocation of the analysis tool.

    *)
  12. language : run_language option;
    (*

    The language of the messages emitted into the log file during this run (expressed as an ISO 639-1 two-letter lowercase culture code) and an optional region (expressed as an ISO 3166-1 two-letter uppercase subculture code associated with a country or region). The casing is recommended but not required (in order for this data to conform to RFC5646).

    *)
  13. logical_locations : logical_location list option;
    (*

    An array of logical locations such as namespaces, types or functions.

    *)
  14. newline_sequences : string list;
    (*

    An ordered list of character sequences that were treated as line breaks when computing region information for the run.

    *)
  15. original_uri_base_ids : hm_str_al option;
    (*

    The artifact location specified by each uriBaseId symbol on the machine where the tool originally ran.

    *)
  16. policies : tool_component list option;
    (*

    Contains configurations that may potentially override both reportingDescriptor.defaultConfiguration (the tool's default severities) and invocation.configurationOverrides (severities established at run-time from the command line).

    *)
  17. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the run.

    *)
  18. redaction_tokens : string list option;
    (*

    An array of strings used to replace sensitive information in a redaction-aware property.

    *)
  19. results : result list option;
    (*

    The set of results contained in an SARIF log. The results array can be omitted when a run is solely exporting rules metadata. It must be present (but may be empty) if a log file represents an actual scan.

    *)
  20. run_aggregates : run_automation_details list option;
    (*

    Automation details that describe the aggregate of runs to which this run belongs.

    *)
  21. special_locations : special_locations option;
    (*

    A specialLocations object that defines locations of special significance to SARIF consumers.

    *)
  22. taxonomies : tool_component list option;
    (*

    An array of toolComponent objects relevant to a taxonomy in which results are categorized.

    *)
  23. thread_flow_locations : thread_flow_location list option;
    (*

    An array of threadFlowLocation objects cached at run level.

    *)
  24. tool : tool;
    (*

    Information about the tool or tool pipeline that generated the results in this run. A run can only contain results produced by a single tool or tool pipeline. A run can aggregate results from multiple log files, as long as context around the tool run (tool command-line arguments and the like) is identical for all aggregated files.

    *)
  25. translations : tool_component list option;
    (*

    Specifies the revision in version control of the artifacts that were scanned.

    *)
  26. version_control_provenance : version_control_details list option;
    (*

    Specifies the revision in version control of the artifacts that were scanned.

    *)
  27. web_requests : web_request list option;
    (*

    An array of request objects cached at run level.

    *)
  28. web_responses : web_response list option;
    (*

    An array of response objects cached at run level.

    *)
}

Describes a single run of an analysis tool, and contains the reported output of that run.

val equal_run : run -> run -> Ppx_deriving_runtime.bool
val compare_run : run -> run -> Ppx_deriving_runtime.int
type sarif_json_schema = {
  1. version : sarif_version;
    (*

    The SARIF format version of this log file.

    *)
  2. inline_external_properties : external_properties list option;
    (*

    References to external property files that share data between runs.

    *)
  3. properties : property_bag option;
    (*

    Key/value pairs that provide additional information about the log file.

    *)
  4. runs : run list;
    (*

    The set of runs contained in this log file.

    *)
  5. schema : string option;
    (*

    The URI of the JSON schema corresponding to the version.

    *)
}

Core type: Static Analysis Results Format (SARIF) Version 2.1.0 JSON Schema: a standard format for the output of static analysis tools.

val show_sarif_json_schema : sarif_json_schema -> Ppx_deriving_runtime.string
val compare_sarif_json_schema : sarif_json_schema -> sarif_json_schema -> Ppx_deriving_runtime.int
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