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|
use crate::{expect, ProcResult};
#[cfg(feature = "serde1")]
use serde::{Deserialize, Serialize};
use std::{collections::HashMap, io::BufRead};
/// Represents the data from `/proc/cpuinfo`.
///
/// The `fields` field stores the fields that are common among all CPUs. The `cpus` field stores
/// CPU-specific info.
///
/// For common fields, there are methods that will return the data, converted to a more appropriate
/// data type. These methods will all return `None` if the field doesn't exist, or is in some
/// unexpected format (in that case, you'll have to access the string data directly).
#[derive(Debug, Clone)]
#[cfg_attr(feature = "serde1", derive(Serialize, Deserialize))]
pub struct CpuInfo {
/// This stores fields that are common among all CPUs
pub fields: HashMap<String, String>,
pub cpus: Vec<HashMap<String, String>>,
}
impl crate::FromBufRead for CpuInfo {
fn from_buf_read<R: BufRead>(r: R) -> ProcResult<Self> {
let mut list = Vec::new();
let mut map = Some(HashMap::new());
// the first line of a cpu block must start with "processor"
let mut found_first = false;
for line in r.lines().flatten() {
if !line.is_empty() {
let mut s = line.split(':');
let key = expect!(s.next());
if !found_first && key.trim() == "processor" {
found_first = true;
}
if !found_first {
continue;
}
if let Some(value) = s.next() {
let key = key.trim().to_owned();
let value = value.trim().to_owned();
map.get_or_insert(HashMap::new()).insert(key, value);
}
} else if let Some(map) = map.take() {
list.push(map);
found_first = false;
}
}
if let Some(map) = map.take() {
list.push(map);
}
// find properties that are the same for all cpus
assert!(!list.is_empty());
let common_fields: Vec<String> = list[0]
.iter()
.filter_map(|(key, val)| {
if list.iter().all(|map| map.get(key).map_or(false, |v| v == val)) {
Some(key.clone())
} else {
None
}
})
.collect();
let mut common_map = HashMap::new();
for (k, v) in &list[0] {
if common_fields.contains(k) {
common_map.insert(k.clone(), v.clone());
}
}
for map in &mut list {
map.retain(|k, _| !common_fields.contains(k));
}
Ok(CpuInfo {
fields: common_map,
cpus: list,
})
}
}
impl CpuInfo {
/// Get the total number of cpu cores.
///
/// This is the number of entries in the `/proc/cpuinfo` file.
pub fn num_cores(&self) -> usize {
self.cpus.len()
}
/// Get info for a specific cpu.
///
/// This will merge the common fields with the cpu-specific fields.
///
/// Returns None if the requested cpu index is not found.
pub fn get_info(&self, cpu_num: usize) -> Option<HashMap<&str, &str>> {
self.cpus.get(cpu_num).map(|info| {
self.fields
.iter()
.chain(info.iter())
.map(|(k, v)| (k.as_ref(), v.as_ref()))
.collect()
})
}
/// Get the content of a specific field associated to a CPU
///
/// Returns None if the requested cpu index is not found.
pub fn get_field(&self, cpu_num: usize, field_name: &str) -> Option<&str> {
self.cpus.get(cpu_num).and_then(|cpu_fields| {
cpu_fields
.get(field_name)
.or_else(|| self.fields.get(field_name))
.map(|s| s.as_ref())
})
}
pub fn model_name(&self, cpu_num: usize) -> Option<&str> {
self.get_field(cpu_num, "model name")
}
pub fn vendor_id(&self, cpu_num: usize) -> Option<&str> {
self.get_field(cpu_num, "vendor_id")
}
/// May not be available on some older 2.6 kernels
pub fn physical_id(&self, cpu_num: usize) -> Option<u32> {
self.get_field(cpu_num, "physical id").and_then(|s| s.parse().ok())
}
pub fn flags(&self, cpu_num: usize) -> Option<Vec<&str>> {
self.get_field(cpu_num, "flags")
.map(|flags| flags.split_whitespace().collect())
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_cpuinfo_rpi() {
// My rpi system includes some stuff at the end of /proc/cpuinfo that we shouldn't parse
let data = r#"processor : 0
model name : ARMv7 Processor rev 4 (v7l)
BogoMIPS : 38.40
Features : half thumb fastmult vfp edsp neon vfpv3 tls vfpv4 idiva idivt vfpd32 lpae evtstrm crc32
CPU implementer : 0x41
CPU architecture: 7
CPU variant : 0x0
CPU part : 0xd03
CPU revision : 4
processor : 1
model name : ARMv7 Processor rev 4 (v7l)
BogoMIPS : 38.40
Features : half thumb fastmult vfp edsp neon vfpv3 tls vfpv4 idiva idivt vfpd32 lpae evtstrm crc32
CPU implementer : 0x41
CPU architecture: 7
CPU variant : 0x0
CPU part : 0xd03
CPU revision : 4
processor : 2
model name : ARMv7 Processor rev 4 (v7l)
BogoMIPS : 38.40
Features : half thumb fastmult vfp edsp neon vfpv3 tls vfpv4 idiva idivt vfpd32 lpae evtstrm crc32
CPU implementer : 0x41
CPU architecture: 7
CPU variant : 0x0
CPU part : 0xd03
CPU revision : 4
processor : 3
model name : ARMv7 Processor rev 4 (v7l)
BogoMIPS : 38.40
Features : half thumb fastmult vfp edsp neon vfpv3 tls vfpv4 idiva idivt vfpd32 lpae evtstrm crc32
CPU implementer : 0x41
CPU architecture: 7
CPU variant : 0x0
CPU part : 0xd03
CPU revision : 4
Hardware : BCM2835
Revision : a020d3
Serial : 0000000012345678
Model : Raspberry Pi 3 Model B Plus Rev 1.3
"#;
let r = std::io::Cursor::new(data.as_bytes());
use crate::FromRead;
let info = CpuInfo::from_read(r).unwrap();
assert_eq!(info.num_cores(), 4);
let info = info.get_info(0).unwrap();
assert!(info.get("model name").is_some());
assert!(info.get("BogoMIPS").is_some());
assert!(info.get("Features").is_some());
assert!(info.get("CPU implementer").is_some());
assert!(info.get("CPU architecture").is_some());
assert!(info.get("CPU variant").is_some());
assert!(info.get("CPU part").is_some());
assert!(info.get("CPU revision").is_some());
}
}
|
