"description":"This field is deprecated. The following fields are always stripped out of\nthe result: `stack_frames`, `evaluated_expressions` and `variable_table`.",
"type":"boolean",
"location":"query"
},
"debuggeeId":{
"location":"path",
"description":"ID of the debuggee whose breakpoints to list.",
"required":true,
"type":"string"
},
"waitToken":{
"description":"A wait token that, if specified, blocks the call until the breakpoints\nlist has changed, or a server selected timeout has expired. The value\nshould be set from the last response. The error code\n`google.rpc.Code.ABORTED` (RPC) is returned on wait timeout, which\nshould be called again with the same `wait_token`.",
"type":"string",
"location":"query"
},
"clientVersion":{
"location":"query",
"description":"The client version making the call.\nSchema: `domain/type/version` (e.g., `google.com/intellij/v1`).",
"type":"string"
},
"action.value":{
"location":"query",
"enum":[
"CAPTURE",
"LOG"
],
"description":"Only breakpoints with the specified action will pass the filter.",
"type":"string"
},
"includeInactive":{
"location":"query",
"description":"When set to `true`, the response includes active and inactive\nbreakpoints. Otherwise, it includes only active breakpoints.",
"type":"boolean"
},
"includeAllUsers":{
"description":"When set to `true`, the response includes the list of breakpoints set by\nany user. Otherwise, it includes only breakpoints set by the caller.",
"description":"Registers the debuggee with the controller service.\n\nAll agents attached to the same application must call this method with\nexactly the same request content to get back the same stable `debuggee_id`.\nAgents should call this method again whenever `google.rpc.Code.NOT_FOUND`\nis returned from any controller method.\n\nThis protocol allows the controller service to disable debuggees, recover\nfrom data loss, or change the `debuggee_id` format. Agents must handle\n`debuggee_id` value changing upon re-registration.",
"description":"Returns the list of all active breakpoints for the debuggee.\n\nThe breakpoint specification (`location`, `condition`, and `expressions`\nfields) is semantically immutable, although the field values may\nchange. For example, an agent may update the location line number\nto reflect the actual line where the breakpoint was set, but this\ndoesn't change the breakpoint semantics.\n\nThis means that an agent does not need to check if a breakpoint has changed\nwhen it encounters the same breakpoint on a successive call.\nMoreover, an agent should remember the breakpoints that are completed\nuntil the controller removes them from the active list to avoid\nsetting those breakpoints again.",
"response":{
"$ref":"ListActiveBreakpointsResponse"
},
"parameterOrder":[
"debuggeeId"
],
"httpMethod":"GET",
"parameters":{
"debuggeeId":{
"location":"path",
"description":"Identifies the debuggee.",
"required":true,
"type":"string"
},
"successOnTimeout":{
"location":"query",
"description":"If set to `true` (recommended), returns `google.rpc.Code.OK` status and\nsets the `wait_expired` response field to `true` when the server-selected\ntimeout has expired.\n\nIf set to `false` (deprecated), returns `google.rpc.Code.ABORTED` status\nwhen the server-selected timeout has expired.",
"type":"boolean"
},
"waitToken":{
"description":"A token that, if specified, blocks the method call until the list\nof active breakpoints has changed, or a server-selected timeout has\nexpired. The value should be set from the `next_wait_token` field in\nthe last response. The initial value should be set to `\"init\"`.",
"description":"Updates the breakpoint state or mutable fields.\nThe entire Breakpoint message must be sent back to the controller service.\n\nUpdates to active breakpoint fields are only allowed if the new value\ndoes not change the breakpoint specification. Updates to the `location`,\n`condition` and `expressions` fields should not alter the breakpoint\nsemantics. These may only make changes such as canonicalizing a value\nor snapping the location to the correct line of code.",
"httpMethod":"PUT",
"parameterOrder":[
"debuggeeId",
"id"
],
"response":{
"$ref":"UpdateActiveBreakpointResponse"
},
"parameters":{
"debuggeeId":{
"description":"Identifies the debuggee being debugged.",
"required":true,
"type":"string",
"location":"path"
},
"id":{
"location":"path",
"description":"Breakpoint identifier, unique in the scope of the debuggee.",
"description":"API key. Your API key identifies your project and provides you with API access, quota, and reports. Required unless you provide an OAuth 2.0 token.",
"type":"string",
"location":"query"
},
"access_token":{
"description":"OAuth access token.",
"type":"string",
"location":"query"
},
"quotaUser":{
"description":"Available to use for quota purposes for server-side applications. Can be any arbitrary string assigned to a user, but should not exceed 40 characters.",
"description":"Represents the debugged application. The application may include one or more\nreplicated processes executing the same code. Each of these processes is\nattached with a debugger agent, carrying out the debugging commands.\nAgents attached to the same debuggee identify themselves as such by using\nexactly the same Debuggee message value when registering.",
"description":"Human readable description of the debuggee.\nIncluding a human-readable project name, environment name and version\ninformation is recommended.",
"description":"Uniquifier to further distiguish the application.\nIt is possible that different applications might have identical values in\nthe debuggee message, thus, incorrectly identified as a single application\nby the Controller service. This field adds salt to further distiguish the\napplication. Agents should consider seeding this field with value that\nidentifies the code, binary, configuration and environment.",
"description":"Human readable message to be displayed to the user about this debuggee.\nAbsence of this field indicates no status. The message can be either\ninformational or an error status."
"description":"If set to `true`, indicates that Controller service does not detect any\nactivity from the debuggee agents and the application is possibly stopped.",
"type":"boolean"
},
"project":{
"description":"Project the debuggee is associated with.\nUse project number or id when registering a Google Cloud Platform project.",
"description":"If set to `true`, indicates that there is no change to the\nlist of active breakpoints and the server-selected timeout has expired.\nThe `breakpoints` field would be empty and should be ignored.",
"description":"The full project name within the host. Projects may be nested, so\n\"project/subproject\" is a valid project name.\nThe \"repo name\" is hostURI/project.",
"description":"A CloudWorkspaceId is a unique identifier for a cloud workspace.\nA cloud workspace is a place associated with a repo where modified files\ncan be stored before they are committed.",
"description":"A wait token that can be used in the next call to `list` (REST) or\n`ListBreakpoints` (RPC) to block until the list of breakpoints has changes.",
"description":"List of breakpoints matching the request.\nThe fields `id` and `location` are guaranteed to be set on each breakpoint.\nThe fields: `stack_frames`, `evaluated_expressions` and `variable_table`\nare cleared on each breakpoint regardless of its status.",
"description":"Condition that triggers the breakpoint.\nThe condition is a compound boolean expression composed using expressions\nin a programming language at the source location.",
"description":"Breakpoint status.\n\nThe status includes an error flag and a human readable message.\nThis field is usually unset. The message can be either\ninformational or an error message. Regardless, clients should always\ndisplay the text message back to the user.\n\nError status indicates complete failure of the breakpoint.\n\nExample (non-final state): `Still loading symbols...`\n\nExamples (final state):\n\n* `Invalid line number` referring to location\n* `Field f not found in class C` referring to condition"
"description":"The `variable_table` exists to aid with computation, memory and network\ntraffic optimization. It enables storing a variable once and reference\nit from multiple variables, including variables stored in the\n`variable_table` itself.\nFor example, the same `this` object, which may appear at many levels of\nthe stack, can have all of its data stored once in this table. The\nstack frame variables then would hold only a reference to it.\n\nThe variable `var_table_index` field is an index into this repeated field.\nThe stored objects are nameless and get their name from the referencing\nvariable. The effective variable is a merge of the referencing variable\nand the referenced variable.",
"description":"Only relevant when action is `LOG`. Defines the message to log when\nthe breakpoint hits. The message may include parameter placeholders `$0`,\n`$1`, etc. These placeholders are replaced with the evaluated value\nof the appropriate expression. Expressions not referenced in\n`log_message_format` are not logged.\n\nExample: `Message received, id = $0, count = $1` with\n`expressions` = `[ message.id, message.count ]`.",
"type":"string"
},
"labels":{
"additionalProperties":{
"type":"string"
},
"description":"A set of custom breakpoint properties, populated by the agent, to be\ndisplayed to the user.",
"type":"object"
},
"expressions":{
"description":"List of read-only expressions to evaluate at the breakpoint location.\nThe expressions are composed using expressions in the programming language\nat the source location. If the breakpoint action is `LOG`, the evaluated\nexpressions are included in log statements.",
"type":"array",
"items":{
"type":"string"
}
},
"evaluatedExpressions":{
"description":"Values of evaluated expressions at breakpoint time.\nThe evaluated expressions appear in exactly the same order they\nare listed in the `expressions` field.\nThe `name` field holds the original expression text, the `value` or\n`members` field holds the result of the evaluated expression.\nIf the expression cannot be evaluated, the `status` inside the `Variable`\nwill indicate an error and contain the error text.",
"description":"A SourceContext is a reference to a tree of files. A SourceContext together\nwith a path point to a unique revision of a single file or directory.",
"type":"object",
"properties":{
"gerrit":{
"$ref":"GerritSourceContext",
"description":"A SourceContext referring to a Gerrit project."
},
"cloudRepo":{
"description":"A SourceContext referring to a revision in a cloud repo.",
"$ref":"CloudRepoSourceContext"
},
"cloudWorkspace":{
"$ref":"CloudWorkspaceSourceContext",
"description":"A SourceContext referring to a snapshot in a cloud workspace."
},
"git":{
"$ref":"GitSourceContext",
"description":"A SourceContext referring to any third party Git repo (e.g. GitHub)."
}
},
"id":"SourceContext"
},
"CloudRepoSourceContext":{
"description":"A CloudRepoSourceContext denotes a particular revision in a cloud\nrepo (a repo hosted by the Google Cloud Platform).",
"type":"object",
"properties":{
"repoId":{
"$ref":"RepoId",
"description":"The ID of the repo."
},
"aliasContext":{
"description":"An alias, which may be a branch or tag.",
"$ref":"AliasContext"
},
"revisionId":{
"description":"A revision ID.",
"type":"string"
},
"aliasName":{
"description":"The name of an alias (branch, tag, etc.).",
"type":"string"
}
},
"id":"CloudRepoSourceContext"
},
"RegisterDebuggeeRequest":{
"description":"Request to register a debuggee.",
"type":"object",
"properties":{
"debuggee":{
"$ref":"Debuggee",
"description":"Debuggee information to register.\nThe fields `project`, `uniquifier`, `description` and `agent_version`\nof the debuggee must be set."
}
},
"id":"RegisterDebuggeeRequest"
},
"RegisterDebuggeeResponse":{
"description":"Response for registering a debuggee.",
"type":"object",
"properties":{
"debuggee":{
"description":"Debuggee resource.\nThe field `id` is guranteed to be set (in addition to the echoed fields).\nIf the field `is_disabled` is set to `true`, the agent should disable\nitself by removing all breakpoints and detaching from the application.\nIt should however continue to poll `RegisterDebuggee` until reenabled.",
"$ref":"Debuggee"
}
},
"id":"RegisterDebuggeeResponse"
},
"GetBreakpointResponse":{
"description":"Response for getting breakpoint information.",
"type":"object",
"properties":{
"breakpoint":{
"$ref":"Breakpoint",
"description":"Complete breakpoint state.\nThe fields `id` and `location` are guaranteed to be set."
}
},
"id":"GetBreakpointResponse"
},
"StatusMessage":{
"description":"Represents a contextual status message.\nThe message can indicate an error or informational status, and refer to\nspecific parts of the containing object.\nFor example, the `Breakpoint.status` field can indicate an error referring\nto the `BREAKPOINT_SOURCE_LOCATION` with the message `Location not found`.",
"type":"object",
"properties":{
"isError":{
"description":"Distinguishes errors from informational messages.",
"type":"boolean"
},
"description":{
"$ref":"FormatMessage",
"description":"Status message text."
},
"refersTo":{
"description":"Reference to which the message applies.",
"type":"string",
"enumDescriptions":[
"Status doesn't refer to any particular input.",
"Status applies to the breakpoint and is related to its location.",
"Status applies to the breakpoint and is related to its condition.",
"Status applies to the breakpoint and is related to its expressions.",
"Status applies to the breakpoint and is related to its age.",
"Status applies to the entire variable.",
"Status applies to variable value (variable name is valid)."
"description":"Represents a variable or an argument possibly of a compound object type.\nNote how the following variables are represented:\n\n1) A simple variable:\n\n int x = 5\n\n { name: \"x\", value: \"5\", type: \"int\" } // Captured variable\n\n2) A compound object:\n\n struct T {\n int m1;\n int m2;\n };\n T x = { 3, 7 };\n\n { // Captured variable\n name: \"x\",\n type: \"T\",\n members { name: \"m1\", value: \"3\", type: \"int\" },\n members { name: \"m2\", value: \"7\", type: \"int\" }\n }\n\n3) A pointer where the pointee was captured:\n\n T x = { 3, 7 };\n T* p = &x;\n\n { // Captured variable\n name: \"p\",\n type: \"T*\",\n value: \"0x00500500\",\n members { name: \"m1\", value: \"3\", type: \"int\" },\n members { name: \"m2\", value: \"7\", type: \"int\" }\n }\n\n4) A pointer where the pointee was not captured:\n\n T* p = new T;\n\n { // Captured variable\n name: \"p\",\n type: \"T*\",\n value: \"0x00400400\"\n status { is_error: true, description { format: \"unavailable\" } }\n }\n\nThe status should describe the reason for the missing value,\nsuch as `\u003coptimized out\u003e`, `\u003cinaccessible\u003e`, `\u003cpointers limit reached\u003e`.\n\nNote that a null pointer should not have members.\n\n5) An unnamed value:\n\n int* p = new int(7);\n\n { // Captured variable\n name: \"p\",\n value: \"0x00500500\",\n type: \"int*\",\n members { value: \"7\", type: \"int\" } }\n\n6) An unnamed pointer where the pointee was not captured:\n\n int* p = new int(7);\n int** pp = &p;\n\n { // Captured variable\n name: \"pp\",\n value: \"0x00500500\",\n type: \"int**\",\n members {\n value: \"0x00400400\",\n type: \"int*\"\n status {\n is_error: true,\n description: { format: \"unavailable\" } }\n }\n }\n }\n\nTo optimize computation, memory and network traffic, variables that\nrepeat in the output multiple times can be stored once in a shared\nvariable table and be referenced using the `var_table_index` field. The\nvariables stored in the shared table are nameless and are essentially\na partition of the complete variable. To reconstruct the complete\nvariable, merge the referencing variable with the referenced variable.\n\nWhen using the shared variable table, the following variables:\n\n T x = { 3, 7 };\n T* p = &x;\n T& r = x;\n\n { name: \"x\", var_table_index: 3, type: \"T\" } // Captured variables\n { name: \"p\", value \"0x00500500\", type=\"T*\", var_table_index: 3 }\n { name: \"r\", type=\"T&\", var_table_index: 3 }\n\n { // Shared variable table entry #3:\n members { name: \"m1\", value: \"3\", type: \"int\" },\n members { name: \"m2\", value: \"7\", type: \"int\" }\n }\n\nNote that the pointer address is stored with the referencing variable\nand not with the referenced variable. This allows the referenced variable\nto be shared between pointers and references.\n\nThe type field is optional. The debugger agent may or may not support it.",
"type":"object",
"properties":{
"type":{
"description":"Variable type (e.g. `MyClass`). If the variable is split with\n`var_table_index`, `type` goes next to `value`. The interpretation of\na type is agent specific. It is recommended to include the dynamic type\nrather than a static type of an object.",
"type":"string"
},
"value":{
"description":"Simple value of the variable.",
"type":"string"
},
"varTableIndex":{
"description":"Reference to a variable in the shared variable table. More than\none variable can reference the same variable in the table. The\n`var_table_index` field is an index into `variable_table` in Breakpoint.",
"format":"int32",
"type":"integer"
},
"members":{
"description":"Members contained or pointed to by the variable.",
"type":"array",
"items":{
"$ref":"Variable"
}
},
"status":{
"description":"Status associated with the variable. This field will usually stay\nunset. A status of a single variable only applies to that variable or\nexpression. The rest of breakpoint data still remains valid. Variables\nmight be reported in error state even when breakpoint is not in final\nstate.\n\nThe message may refer to variable name with `refers_to` set to\n`VARIABLE_NAME`. Alternatively `refers_to` will be set to `VARIABLE_VALUE`.\nIn either case variable value and members will be unset.\n\nExample of error message applied to name: `Invalid expression syntax`.\n\nExample of information message applied to value: `Not captured`.\n\nExamples of error message applied to value:\n\n* `Malformed string`,\n* `Field f not found in class C`\n* `Null pointer dereference`",
"description":"Represents a message with parameters.",
"type":"object",
"properties":{
"parameters":{
"description":"Optional parameters to be embedded into the message.",
"type":"array",
"items":{
"type":"string"
}
},
"format":{
"description":"Format template for the message. The `format` uses placeholders `$0`,\n`$1`, etc. to reference parameters. `$$` can be used to denote the `$`\ncharacter.\n\nExamples:\n\n* `Failed to load '$0' which helps debug $1 the first time it\n is loaded. Again, $0 is very important.`\n* `Please pay $$10 to use $0 instead of $1.`",
"OTHER is used to specify non-standard aliases, those not of the kinds\nabove. For example, if a Git repo has a ref named \"refs/foo/bar\", it\nis considered to be of kind OTHER."
"description":"List of debuggees accessible to the calling user.\nThe fields `debuggee.id` and `description` are guaranteed to be set.\nThe `description` field is a human readable field provided by agents and\ncan be displayed to users.",
"description":"A generic empty message that you can re-use to avoid defining duplicated\nempty messages in your APIs. A typical example is to use it as the request\nor the response type of an API method. For instance:\n\n service Foo {\n rpc Bar(google.protobuf.Empty) returns (google.protobuf.Empty);\n }\n\nThe JSON representation for `Empty` is empty JSON object `{}`.",