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anihilis 2025-12-21 10:31:31 -08:00
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qfetch.c Normal file
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#define _POSIX_C_SOURCE 200809L
/*
* qfetch.c dynamic & portable system information fetcher
*
* Goals:
* - Pure C (C99)
* - Heap-allocated strings (caller owns memory)
* - Portable across Linux, macOS, and BSD
* - Graceful fallbacks when platform-specific features are unavailable
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <pwd.h>
#include <sys/utsname.h>
#include <errno.h>
/* Platform-specific headers for macOS / BSD */
#if defined(__APPLE__) || defined(__FreeBSD__)
#include <sys/types.h>
#include <sys/sysctl.h>
#include <sys/time.h>
#include <time.h>
#endif
/*
* Utility: duplicate a string or return "unknown" if NULL/empty.
* Always returns heap-allocated memory.
*/
static char *dup_or_unknown(const char *s) {
if (!s || !*s)
return strdup("unknown");
return strdup(s);
}
/*
* Fetch system hostname using POSIX gethostname().
* Buffer size is determined dynamically via sysconf().
*/
char *get_hostname(void) {
long max = sysconf(_SC_HOST_NAME_MAX);
if (max < 0)
max = 256; /* fallback if limit is unavailable */
char *buf = calloc(max + 1, 1);
if (!buf)
return dup_or_unknown(NULL);
if (gethostname(buf, max) != 0) {
free(buf);
return dup_or_unknown(NULL);
}
return buf;
}
/*
* Fetch current username via getpwuid().
*/
char *get_user(void) {
struct passwd *pw = getpwuid(getuid());
return pw ? dup_or_unknown(pw->pw_name) : dup_or_unknown(NULL);
}
/*
* Fetch login shell name (basename only, e.g. "bash").
*/
char *get_shell(void) {
struct passwd *pw = getpwuid(getuid());
if (!pw || !pw->pw_shell)
return dup_or_unknown(NULL);
/* Extract basename from full path */
const char *s = strrchr(pw->pw_shell, '/');
return dup_or_unknown(s ? s + 1 : pw->pw_shell);
}
/*
* Fetch kernel name and version using uname().
*/
char *get_kernel(void) {
struct utsname u;
if (uname(&u) != 0)
return dup_or_unknown(NULL);
size_t len = strlen(u.sysname) + strlen(u.release) + 2;
char *buf = malloc(len);
if (!buf)
return dup_or_unknown(NULL);
snprintf(buf, len, "%s %s", u.sysname, u.release);
return buf;
}
/*
* Fetch operating system / distribution name.
* Linux: /etc/os-release
* macOS/BSD: static identifier
*/
char *get_os(void) {
#if defined(__linux__)
FILE *f = fopen("/etc/os-release", "r");
if (!f)
return dup_or_unknown("Linux");
char line[512];
while (fgets(line, sizeof line, f)) {
if (strncmp(line, "PRETTY_NAME=", 12) == 0) {
char *v = line + 12;
v[strcspn(v, "\n")] = 0; /* strip newline */
if (*v == '"') v++;
char *e = strrchr(v, '"');
if (e) *e = 0;
fclose(f);
return strdup(v);
}
}
fclose(f);
return dup_or_unknown("Linux");
#elif defined(__APPLE__)
return dup_or_unknown("macOS");
#elif defined(__FreeBSD__)
return dup_or_unknown("FreeBSD");
#else
return dup_or_unknown("Unix");
#endif
}
/*
* Fetch system uptime.
* Linux: /proc/uptime
* macOS/BSD: sysctl(KERN_BOOTTIME)
*/
char *get_uptime(void) {
#if defined(__linux__)
FILE *f = fopen("/proc/uptime", "r");
if (!f)
return dup_or_unknown(NULL);
double s;
if (fscanf(f, "%lf", &s) != 1) {
fclose(f);
return dup_or_unknown(NULL);
}
fclose(f);
#elif defined(__APPLE__) || defined(__FreeBSD__)
struct timeval boottime;
size_t len = sizeof(boottime);
int mib[2] = { CTL_KERN, KERN_BOOTTIME };
if (sysctl(mib, 2, &boottime, &len, NULL, 0) != 0)
return dup_or_unknown(NULL);
time_t now = time(NULL);
double s = difftime(now, boottime.tv_sec);
#else
return dup_or_unknown("n/a");
#endif
/* Convert seconds to human-readable format */
int d = s / 86400;
int h = ((int)s % 86400) / 3600;
int m = ((int)s % 3600) / 60;
char buf[64];
if (d)
snprintf(buf, sizeof buf, "%dd %dh %dm", d, h, m);
else if (h)
snprintf(buf, sizeof buf, "%dh %dm", h, m);
else
snprintf(buf, sizeof buf, "%dm", m);
return strdup(buf);
}
/*
* Fetch CPU model and core count.
* Linux: /proc/cpuinfo
* macOS/BSD: sysctl hw.model + hw.ncpu
*/
char *get_cpu(void) {
#if defined(__linux__)
FILE *f = fopen("/proc/cpuinfo", "r");
if (!f)
return dup_or_unknown(NULL);
char line[512];
char model[256] = "";
int cores = 0;
while (fgets(line, sizeof line, f)) {
if (strncmp(line, "model name", 10) == 0) {
if (!*model) {
char *p = strchr(line, ':');
if (p) {
p += 2;
p[strcspn(p, "\n")] = 0;
strncpy(model, p, sizeof model - 1);
}
}
cores++;
}
}
fclose(f);
if (!*model)
return dup_or_unknown(NULL);
char buf[512];
snprintf(buf, sizeof buf, "%s (%d cores)", model, cores);
return strdup(buf);
#elif defined(__APPLE__) || defined(__FreeBSD__)
char model[256];
size_t len = sizeof(model);
if (sysctlbyname("hw.model", model, &len, NULL, 0) != 0)
strncpy(model, "unknown", sizeof model);
int cores = 0;
len = sizeof(cores);
sysctlbyname("hw.ncpu", &cores, &len, NULL, 0);
char buf[512];
snprintf(buf, sizeof buf, "%s (%d cores)", model, cores);
return strdup(buf);
#else
return dup_or_unknown("unknown cpu");
#endif
}
/*
* Entry point.
* Fetches all information, prints it, then frees memory.
*/
int main(void) {
char *user = get_user();
char *host = get_hostname();
char *shell = get_shell();
char *os = get_os();
char *kernel = get_kernel();
char *uptime = get_uptime();
char *cpu = get_cpu();
printf("\n"
"\033[1m\033[37mwelcome, %s\033[1;31m ♥\033[0m\n\n"
" \033[1;37m• \033[1;37mhost\033[0m %s\n"
" \033[1;33m• \033[1;37mdistro\033[0m %s\n"
" \033[1;32m• \033[1;37mshell\033[0m %s\n"
" \033[1;36m• \033[1;37mcpu\033[0m %s\n"
" \033[1;34m• \033[1;37mkernel\033[0m %s\n"
" \033[1;35m• \033[1;37muptime\033[0m %s\n\n",
user, host, os, shell, cpu, kernel, uptime);
/* Free all heap-allocated strings */
free(user);
free(host);
free(shell);
free(os);
free(kernel);
free(uptime);
free(cpu);
return 0;
}

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qfetchC-notes.txt Normal file
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Perfect — lets switch hats from *“just making it work”* to *“learning C properly”*.
Ill explain **how to read and think about this file**, not just what it does.
Ill reference the structure you now have in the file and explain the *C concepts* behind each part.
---
## 1⃣ The mindset shift: C vs C++
In C:
* ❌ No classes, no RAII, no `std::string`
* ✅ **You control memory explicitly**
* ✅ Functions are small, focused, and composable
* ✅ Portability comes from *conditional compilation*
Your program follows a **very idiomatic C pattern**:
> *“Each function returns ownership of dynamically allocated data, and the caller frees it.”*
Thats a **huge** C concept to internalize.
---
## 2⃣ Feature macros (`_POSIX_C_SOURCE`)
```c
#define _POSIX_C_SOURCE 200809L
```
### Why this exists
C standard libraries hide some functions unless you *opt in*.
This line tells the compiler:
> “I want modern POSIX features like `strdup`, `gethostname`, `sysconf`.”
Without it:
* Some systems wont expose those functions
* Youll get mysterious warnings or missing symbols
**Lesson:**
👉 In C, *what functions exist* depends on feature macros.
---
## 3⃣ Headers: what C teaches you here
```c
#include <stdio.h> // printf, FILE
#include <stdlib.h> // malloc, free
#include <string.h> // strlen, strdup
#include <unistd.h> // POSIX functions
```
In C:
* Headers are **contracts**
* If its not included, the compiler assumes *nothing*
**Rule of thumb:**
> If you call a function, its header must be included — no exceptions.
---
## 4⃣ Conditional compilation (`#if defined(...)`)
Example:
```c
#if defined(__APPLE__) || defined(__FreeBSD__)
#include <sys/sysctl.h>
#endif
```
### What this teaches you
* C has **no runtime reflection**
* Portability happens at **compile time**
* The preprocessor literally removes code before compilation
Think of it as:
```text
“Only compile this code if the OS supports it.”
```
This is how *real* portable C software works (git, curl, openssh).
---
## 5⃣ The most important function in the file
```c
static char *dup_or_unknown(const char *s)
```
### Why this exists
This function enforces a **contract**:
* Every getter:
* returns a valid `char *`
* never returns `NULL`
* always returns heap memory
### Why that matters
It lets `main()` be *simple*:
```c
char *user = get_user();
/* ... */
free(user);
```
No special cases.
No defensive `if (ptr)` checks.
**Lesson:**
👉 In C, helper functions enforce invariants so callers stay clean.
---
## 6⃣ Dynamic allocation patterns (CRITICAL)
Example:
```c
char *buf = malloc(len);
snprintf(buf, len, "...", ...);
return buf;
```
### This is idiomatic C
Rules being followed:
1. Allocate **exactly what you need**
2. Initialize before use
3. Return ownership to the caller
4. Caller must `free()`
Contrast this with C++:
* No destructors
* No smart pointers
* No safety net
**Lesson:**
👉 In C, *ownership is a social contract*, not a language feature.
---
## 7⃣ Why no global buffers?
You *could* have done:
```c
static char buf[256];
```
But that would:
* Break thread safety
* Break reentrancy
* Make functions non-composable
Dynamic allocation makes your functions:
* Reusable
* Testable
* Library-quality
**Lesson:**
👉 Globals are easy — dynamic ownership is correct.
---
## 8⃣ Reading system information in C
Each platform teaches a lesson:
### Linux
```c
/proc/cpuinfo
/proc/uptime
```
* Text parsing
* Line-by-line scanning
* Defensive string handling
### macOS / BSD
```c
sysctl()
```
* Structured kernel APIs
* Buffer-size negotiation
* Integer & struct-based data
**Lesson:**
👉 C doesnt abstract the OS — it exposes it.
---
## 9⃣ Time handling (classic C pain point)
```c
time_t now = time(NULL);
difftime(now, boottime.tv_sec);
```
Why this matters:
* `time_t` may not be an integer
* You *never* subtract times directly
* `difftime()` handles portability
**Lesson:**
👉 In C, use the standard library *exactly as intended*.
---
## 🔟 The `main()` function: clean by design
```c
char *user = get_user();
/* ... */
free(user);
```
Notice:
* No logic
* No parsing
* No platform checks
* No error handling clutter
All complexity lives *outside* `main()`.
**Lesson:**
👉 In C, `main()` should read like a script.
---
## 1⃣1⃣ What this code teaches you overall
Youve learned:
* ✅ How C handles memory *explicitly*
* ✅ How portability really works
* ✅ How to design safe APIs in unsafe languages
* ✅ How Unix exposes system information
* ✅ How real-world C programs are structured
This is **not beginner C** — this is *professional-grade foundational C*.
---
## If you want to go deeper next
From a learning perspective, great next steps would be:
* 🔹 Splitting into `.h` / `.c`
* 🔹 Writing your own `string_builder`
* 🔹 Adding error-return variants (`int get_x(char **out)`)
* 🔹 Making this a reusable library
* 🔹 Running it under `valgrind` and analyzing output
If you want, I can:
* Rewrite one function *line by line* explaining *every character*
* Or turn this into a **guided C learning project**
Just tell me how deep you want to go — youre asking exactly the right questions 👏

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