promtool: Fix `*_handle_count` and `*_thread_count`
Related to #659, this is a breaking change! Fixes ``` windows_process_handle_count non-histogram and non-summary metrics should not have "_count" suffix windows_process_thread_count non-histogram and non-summary metrics should not have "_count" suffix ``` for process and terminal_services collectors. Signed-off-by: Mario Trangoni <mjtrangoni@gmail.com>
This commit is contained in:
parent
4b9b9e97cb
commit
fc33fa320b
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@ -73,7 +73,7 @@ func newProcessCollector() (Collector, error) {
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nil,
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nil,
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),
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),
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HandleCount: prometheus.NewDesc(
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HandleCount: prometheus.NewDesc(
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prometheus.BuildFQName(Namespace, subsystem, "handle_count"),
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prometheus.BuildFQName(Namespace, subsystem, "handles"),
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"Total number of handles the process has open. This number is the sum of the handles currently open by each thread in the process.",
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"Total number of handles the process has open. This number is the sum of the handles currently open by each thread in the process.",
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[]string{"process", "process_id", "creating_process_id"},
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[]string{"process", "process_id", "creating_process_id"},
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nil,
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nil,
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@ -121,7 +121,7 @@ func newProcessCollector() (Collector, error) {
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nil,
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nil,
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),
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),
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ThreadCount: prometheus.NewDesc(
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ThreadCount: prometheus.NewDesc(
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prometheus.BuildFQName(Namespace, subsystem, "thread_count"),
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prometheus.BuildFQName(Namespace, subsystem, "threads"),
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"Number of threads currently active in this process.",
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"Number of threads currently active in this process.",
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[]string{"process", "process_id", "creating_process_id"},
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[]string{"process", "process_id", "creating_process_id"},
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nil,
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nil,
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@ -82,7 +82,7 @@ func NewTerminalServicesCollector() (Collector, error) {
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nil,
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nil,
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),
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),
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HandleCount: prometheus.NewDesc(
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HandleCount: prometheus.NewDesc(
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prometheus.BuildFQName(Namespace, subsystem, "handle_count"),
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prometheus.BuildFQName(Namespace, subsystem, "handles"),
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"Total number of handles currently opened by this process. This number is the sum of the handles currently opened by each thread in this process.",
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"Total number of handles currently opened by this process. This number is the sum of the handles currently opened by each thread in this process.",
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[]string{"session_name"},
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[]string{"session_name"},
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nil,
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nil,
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@ -142,7 +142,7 @@ func NewTerminalServicesCollector() (Collector, error) {
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nil,
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nil,
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),
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),
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ThreadCount: prometheus.NewDesc(
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ThreadCount: prometheus.NewDesc(
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prometheus.BuildFQName(Namespace, subsystem, "thread_count"),
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prometheus.BuildFQName(Namespace, subsystem, "threads"),
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"Number of threads currently active in this process. An instruction is the basic unit of execution in a processor, and a thread is the object that executes instructions. Every running process has at least one thread.",
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"Number of threads currently active in this process. An instruction is the basic unit of execution in a processor, and a thread is the object that executes instructions. Every running process has at least one thread.",
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[]string{"session_name"},
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[]string{"session_name"},
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nil,
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nil,
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@ -43,7 +43,7 @@ Name | Description | Type | Labels
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-----|-------------|------|-------
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-----|-------------|------|-------
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`windows_process_start_time` | Time of process start | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_start_time` | Time of process start | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_cpu_time_total` | Returns elapsed time that all of the threads of this process used the processor to execute instructions by mode (privileged, user). An instruction is the basic unit of execution in a computer, a thread is the object that executes instructions, and a process is the object created when a program is run. Code executed to handle some hardware interrupts and trap conditions is included in this count. | counter | `process`, `process_id`, `creating_process_id`
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`windows_process_cpu_time_total` | Returns elapsed time that all of the threads of this process used the processor to execute instructions by mode (privileged, user). An instruction is the basic unit of execution in a computer, a thread is the object that executes instructions, and a process is the object created when a program is run. Code executed to handle some hardware interrupts and trap conditions is included in this count. | counter | `process`, `process_id`, `creating_process_id`
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`windows_process_handle_count` | Total number of handles the process has open. This number is the sum of the handles currently open by each thread in the process. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_handles` | Total number of handles the process has open. This number is the sum of the handles currently open by each thread in the process. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_io_bytes_total` | Bytes issued to I/O operations in different modes (read, write, other). This property counts all I/O activity generated by the process to include file, network, and device I/Os. Read and write mode includes data operations; other mode includes those that do not involve data, such as control operations. | counter | `process`, `process_id`, `creating_process_id`
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`windows_process_io_bytes_total` | Bytes issued to I/O operations in different modes (read, write, other). This property counts all I/O activity generated by the process to include file, network, and device I/Os. Read and write mode includes data operations; other mode includes those that do not involve data, such as control operations. | counter | `process`, `process_id`, `creating_process_id`
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`windows_process_io_operations_total` | I/O operations issued in different modes (read, write, other). This property counts all I/O activity generated by the process to include file, network, and device I/Os. Read and write mode includes data operations; other mode includes those that do not involve data, such as control operations. | counter | `process`, `process_id`, `creating_process_id`
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`windows_process_io_operations_total` | I/O operations issued in different modes (read, write, other). This property counts all I/O activity generated by the process to include file, network, and device I/Os. Read and write mode includes data operations; other mode includes those that do not involve data, such as control operations. | counter | `process`, `process_id`, `creating_process_id`
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`windows_process_page_faults_total` | Page faults by the threads executing in this process. A page fault occurs when a thread refers to a virtual memory page that is not in its working set in main memory. This can cause the page not to be fetched from disk if it is on the standby list and hence already in main memory, or if it is in use by another process with which the page is shared. | counter | `process`, `process_id`, `creating_process_id`
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`windows_process_page_faults_total` | Page faults by the threads executing in this process. A page fault occurs when a thread refers to a virtual memory page that is not in its working set in main memory. This can cause the page not to be fetched from disk if it is on the standby list and hence already in main memory, or if it is in use by another process with which the page is shared. | counter | `process`, `process_id`, `creating_process_id`
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@ -51,7 +51,7 @@ Name | Description | Type | Labels
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`windows_process_pool_bytes` | Pool Bytes is the last observed number of bytes in the paged or nonpaged pool. The nonpaged pool is an area of system memory (physical memory used by the operating system) for objects that cannot be written to disk, but must remain in physical memory as long as they are allocated. The paged pool is an area of system memory (physical memory used by the operating system) for objects that can be written to disk when they are not being used. Nonpaged pool bytes is calculated differently than paged pool bytes, so it might not equal the total of paged pool bytes. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_pool_bytes` | Pool Bytes is the last observed number of bytes in the paged or nonpaged pool. The nonpaged pool is an area of system memory (physical memory used by the operating system) for objects that cannot be written to disk, but must remain in physical memory as long as they are allocated. The paged pool is an area of system memory (physical memory used by the operating system) for objects that can be written to disk when they are not being used. Nonpaged pool bytes is calculated differently than paged pool bytes, so it might not equal the total of paged pool bytes. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_priority_base` | Current base priority of this process. Threads within a process can raise and lower their own base priority relative to the process base priority of the process. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_priority_base` | Current base priority of this process. Threads within a process can raise and lower their own base priority relative to the process base priority of the process. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_private_bytes` | Current number of bytes this process has allocated that cannot be shared with other processes. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_private_bytes` | Current number of bytes this process has allocated that cannot be shared with other processes. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_thread_count` | Number of threads currently active in this process. An instruction is the basic unit of execution in a processor, and a thread is the object that executes instructions. Every running process has at least one thread. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_threads` | Number of threads currently active in this process. An instruction is the basic unit of execution in a processor, and a thread is the object that executes instructions. Every running process has at least one thread. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_virtual_bytes` | Current size, in bytes, of the virtual address space that the process is using. Use of virtual address space does not necessarily imply corresponding use of either disk or main memory pages. Virtual space is finite and, by using too much, the process can limit its ability to load libraries. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_virtual_bytes` | Current size, in bytes, of the virtual address space that the process is using. Use of virtual address space does not necessarily imply corresponding use of either disk or main memory pages. Virtual space is finite and, by using too much, the process can limit its ability to load libraries. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_working_set_private_bytes` | Size of the working set, in bytes, that is use for this process only and not shared nor shareable by other processes. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_working_set_private_bytes` | Size of the working set, in bytes, that is use for this process only and not shared nor shareable by other processes. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_working_set_peak_bytes` | Maximum size, in bytes, of the Working Set of this process at any point in time. The Working Set is the set of memory pages touched recently by the threads in the process. If free memory in the computer is above a threshold, pages are left in the Working Set of a process even if they are not in use. When free memory falls below a threshold, pages are trimmed from Working Sets. If they are needed they will then be soft-faulted back into the Working Set before they leave main memory. | gauge | `process`, `process_id`, `creating_process_id`
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`windows_process_working_set_peak_bytes` | Maximum size, in bytes, of the Working Set of this process at any point in time. The Working Set is the set of memory pages touched recently by the threads in the process. If free memory in the computer is above a threshold, pages are left in the Working Set of a process even if they are not in use. When free memory falls below a threshold, pages are trimmed from Working Sets. If they are needed they will then be soft-faulted back into the Working Set before they leave main memory. | gauge | `process`, `process_id`, `creating_process_id`
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@ -19,7 +19,7 @@ Name | Description | Type | Labels
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-----|-------------|------|-------
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-----|-------------|------|-------
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`windows_terminal_services_local_session_count` | Number of local Terminal Services sessions. | gauge | `session`
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`windows_terminal_services_local_session_count` | Number of local Terminal Services sessions. | gauge | `session`
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`windows_terminal_services_connection_broker_performance_total`* | The total number of connections handled by the Connection Brokers since the service started. | counter | `connection`
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`windows_terminal_services_connection_broker_performance_total`* | The total number of connections handled by the Connection Brokers since the service started. | counter | `connection`
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`windows_terminal_services_handle_count` | Total number of handles currently opened by this process. This number is the sum of the handles currently opened by each thread in this process. | gauge | `session_name`
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`windows_terminal_services_handles` | Total number of handles currently opened by this process. This number is the sum of the handles currently opened by each thread in this process. | gauge | `session_name`
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`windows_terminal_services_page_fault_total` | Rate at which page faults occur in the threads executing in this process. A page fault occurs when a thread refers to a virtual memory page that is not in its working set in main memory. The page may not be retrieved from disk if it is on the standby list and therefore already in main memory. The page also may not be retrieved if it is in use by another process which shares the page. | counter | `session_name`
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`windows_terminal_services_page_fault_total` | Rate at which page faults occur in the threads executing in this process. A page fault occurs when a thread refers to a virtual memory page that is not in its working set in main memory. The page may not be retrieved from disk if it is on the standby list and therefore already in main memory. The page also may not be retrieved if it is in use by another process which shares the page. | counter | `session_name`
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`windows_terminal_services_page_file_bytes` | Current number of bytes this process has used in the paging file(s). Paging files are used to store pages of memory used by the process that are not contained in other files. Paging files are shared by all processes, and lack of space in paging files can prevent other processes from allocating memory. | gauge | `session_name`
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`windows_terminal_services_page_file_bytes` | Current number of bytes this process has used in the paging file(s). Paging files are used to store pages of memory used by the process that are not contained in other files. Paging files are shared by all processes, and lack of space in paging files can prevent other processes from allocating memory. | gauge | `session_name`
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`windows_terminal_services_page_file_bytes_peak` | Maximum number of bytes this process has used in the paging file(s). Paging files are used to store pages of memory used by the process that are not contained in other files. Paging files are shared by all processes, and lack of space in paging files can prevent other processes from allocating memory. | gauge | `session_name`
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`windows_terminal_services_page_file_bytes_peak` | Maximum number of bytes this process has used in the paging file(s). Paging files are used to store pages of memory used by the process that are not contained in other files. Paging files are shared by all processes, and lack of space in paging files can prevent other processes from allocating memory. | gauge | `session_name`
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@ -29,7 +29,7 @@ Name | Description | Type | Labels
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`windows_terminal_services_pool_non_paged_bytes` | Number of bytes in the non-paged pool, an area of system memory (physical memory used by the operating system) for objects that cannot be written to disk, but must remain in physical memory as long as they are allocated. This property displays the last observed value only; it is not an average. | gauge | `session_name`
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`windows_terminal_services_pool_non_paged_bytes` | Number of bytes in the non-paged pool, an area of system memory (physical memory used by the operating system) for objects that cannot be written to disk, but must remain in physical memory as long as they are allocated. This property displays the last observed value only; it is not an average. | gauge | `session_name`
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`windows_terminal_services_pool_paged_bytes` | Number of bytes in the paged pool, an area of system memory (physical memory used by the operating system) for objects that can be written to disk when they are not being used. This property displays the last observed value only; it is not an average. | gauge | `session_name`
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`windows_terminal_services_pool_paged_bytes` | Number of bytes in the paged pool, an area of system memory (physical memory used by the operating system) for objects that can be written to disk when they are not being used. This property displays the last observed value only; it is not an average. | gauge | `session_name`
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`windows_terminal_services_private_bytes` | Current number of bytes this process has allocated that cannot be shared with other processes. | gauge | `session_name`
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`windows_terminal_services_private_bytes` | Current number of bytes this process has allocated that cannot be shared with other processes. | gauge | `session_name`
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`windows_terminal_services_thread_count` | Number of threads currently active in this process. An instruction is the basic unit of execution in a processor, and a thread is the object that executes instructions. Every running process has at least one thread. | gauge | `session_name`
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`windows_terminal_services_threads` | Number of threads currently active in this process. An instruction is the basic unit of execution in a processor, and a thread is the object that executes instructions. Every running process has at least one thread. | gauge | `session_name`
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`windows_terminal_services_virtual_bytes` | Current size, in bytes, of the virtual address space the process is using. Use of virtual address space does not necessarily imply corresponding use of either disk or main memory pages. Virtual space is finite and, by using too much, the process can limit its ability to load libraries. | gauge | `session_name`
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`windows_terminal_services_virtual_bytes` | Current size, in bytes, of the virtual address space the process is using. Use of virtual address space does not necessarily imply corresponding use of either disk or main memory pages. Virtual space is finite and, by using too much, the process can limit its ability to load libraries. | gauge | `session_name`
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`windows_terminal_services_virtual_bytes_peak` | Maximum number of bytes of virtual address space the process has used at any one time. Use of virtual address space does not necessarily imply corresponding use of either disk or main memory pages. Virtual space is finite and, by using too much, the process might limit its ability to load libraries. | gauge | `session_name`
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`windows_terminal_services_virtual_bytes_peak` | Maximum number of bytes of virtual address space the process has used at any one time. Use of virtual address space does not necessarily imply corresponding use of either disk or main memory pages. Virtual space is finite and, by using too much, the process might limit its ability to load libraries. | gauge | `session_name`
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`windows_terminal_services_working_set_bytes` | Current number of bytes in the working set of this process. The working set is the set of memory pages touched recently by the threads in the process. If free memory in the computer is above a threshold, pages are left in the working set of a process even if they are not in use. When free memory falls below a threshold, pages are trimmed from working sets. If they are needed, they are then soft-faulted back into the working set before they leave main memory. | gauge | `session_name`
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`windows_terminal_services_working_set_bytes` | Current number of bytes in the working set of this process. The working set is the set of memory pages touched recently by the threads in the process. If free memory in the computer is above a threshold, pages are left in the working set of a process even if they are not in use. When free memory falls below a threshold, pages are trimmed from working sets. If they are needed, they are then soft-faulted back into the working set before they leave main memory. | gauge | `session_name`
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