Merge pull request 'should be right?' (#20 ) from sys_fix into main

Reviewed-on: #20
Update README.md
2026-05-08 12:59:05 +02:00 · 2026-05-08 12:58:08 +02:00 · 2026-05-08 12:38:16 +02:00 · 2026-05-06 14:04:28 +02:00 · 2026-05-06 13:29:35 +02:00 · 2026-05-06 11:26:33 +02:00
26 changed files with 609 additions and 119 deletions
@@ -1,3 +1,5 @@
 USER_PROGRAMS := pedicel.raw apex.raw
 USER_FILES := wow.txt
 BUILDDIR := build
 ELFFILE := pepperk
@@ -21,8 +23,6 @@ CC_FLAGS=-Wall -Wextra -std=gnu99 -nostdlib -ffreestanding -fstack-protector -fn
 LD := x86_64-elf-ld
 $(ELFFILE): $(BUILDDIR) $(OBJFILES)
 	nasm -f bin user/hello.S -o $(BUILDDIR)/hello
 	nasm -f bin user/pedicel.S -o $(BUILDDIR)/pedicel
 	nasm -f elf64 src/arch/x86/idt.S -o $(BUILDDIR)/idt_stub.o
 	$(LD) -o $(ELFFILE) -T linker.ld $(OBJFILES) $(BUILDDIR)/idt_stub.o
 	# Get the symbols for debugging
@@ -43,14 +43,18 @@ limine/limine:
 	git clone https://github.com/limine-bootloader/limine.git --branch=v9.x-binary --depth=1
 	$(MAKE) -C limine
 .PHONY: user
 user:
 	$(MAKE) -C user
 	tar cvf $(BUILDDIR)/initfs.tar -C $(BUILDDIR) $(USER_PROGRAMS) -C ../user $(USER_FILES)
 build-iso: limine/limine $(ELFFILE)
 	rm -rf iso_root
 	mkdir -p iso_root/boot
 	cp -v $(ELFFILE) iso_root/boot
 	mkdir -p iso_root/boot/limine
 	cp -v limine.conf iso_root/boot/limine
-	cp $(BUILDDIR)/hello iso_root/boot/
+	cp $(BUILDDIR)/initfs.tar iso_root/boot/
 	cp $(BUILDDIR)/pedicel iso_root/boot/
 	mkdir -p iso_root/EFI/BOOT
 	cp -v limine/limine-bios.sys limine/limine-bios-cd.bin limine/limine-uefi-cd.bin iso_root/boot/limine/
 	cp -v limine/BOOTX64.EFI iso_root/EFI/BOOT/
@@ -1,5 +1,5 @@
 # <img width="40" height="40" alt="red-pepper" src="https://i.ibb.co/mrHH6d1m/pixil-frame-0-4.png" /> pepperOS: "will never be done"
-
+<a href="https://ibb.co/KxbfxmFB"><img src="https://i.ibb.co/GQn8QFcG/pepper.png" alt="pepper" border="0"></a>
 ## Description
 PepperOS is a 64-bit freely-licensed monolithic kernel for x86 processors, with round-robin preemptive scheduling and 4-level paging. See the [manual](docs/MANUAL.md) for more.
@@ -23,8 +23,9 @@ CC := gcc
 LD := ld
 ```
-Then, to compile the kernel and make an ISO image file, run: `make build-iso`
+Then, to compile the kernel and make an ISO image file, run: `make`.  
-To run it with QEMU, do: `make run`
+To build the user programs and the initial filesystem, do `make user`.  
 To run it with QEMU, do: `make run`.  
 ## Trying the kernel on real hardware
@@ -48,31 +49,9 @@ These features can be activated by setting them to "true" at the end of the make
 make UBSAN=true
 ```
-## TODO
+## Writing software for PepperOS
-The basics that I'm targeting are:
+If you want to write software for PepperOS, take a look at the [Software Developer's guide](docs/SOFTWARE.md).
 ### Basic utility of what we call a "kernel"
 - Implement tasks, and task switching + context switching and spinlock acquire/release
 - Load an executable
 - Filesystem (TAR for read-only initfs, then maybe read-write using FAT12/16/32 or easier fs) w/ VFS layer
 - Getting to userspace (ring 3 switching, syscall interface)
 - Porting musl libc or equivalent
 ### Scalability/maintenance/expansion features
 - Documentation
 - SOME error handling in functions
 - Unit tests
 - Good error codes (like Linux kernel: ENOMEM, ENOENT, ...)
 ### Optional features
 In the future, maybe?
 - SMP support (Limine provides functionality to make this easier)
 - Parsing the ACPI tables and using them for something
 - Replacing the PIT timer with APIC
 ## Thanks
@@ -25,6 +25,9 @@ The recommended hardware to run PepperOS is the following:
 ## b. Features
 - Round robin preemptive scheduling
 - Coexistence of ring 0 and ring 3 processes
 ## II. Kernel architecture
 ### a. Boot process
@@ -37,4 +40,13 @@ The recommended hardware to run PepperOS is the following:
 ## III. Syscall table
-Not yet implemented.
+The syscall interface in the Pepper kernel uses the System V ABI convention for argument order.
 It vaguely mimics Unix-like systems.
 Name | Number (%rax) | arg0 (%rdi) | arg1 (%rsi) | arg2 (%rdx) |
 |---|---|---|---|---|
 | sys_read | 0 | unsigned int fd | char* buf | size_t count |
 | sys_write | 1 | unsigned int fd | const char* buf | size_t count |
 | sys_open | 2 | const char* filename | int flags | |
 | sys_close | 3 | unsigned int fd | | |
 | sys_exit | 60 | int error_code | | |
@@ -0,0 +1,57 @@
 # Writing software for PepperOS
 ## Why would you want to do that?
 Honestly I have no idea. Maybe you have too much free time.  
 Keep in mind that the Pepper kernel is a personal project and it's full of bugs, inconsistencies, weird ways of doing things (and I don't care because it's my toy).  
 Now if you still want to write something for this OS, thank you. Follow along.
 ## 1. Write the source code
 PepperOS is able to run programs written in x86 assembly, and C programs.
 ### x86 Assembly
 Start your assembly file with the `bits 64` instruction, to emit 64-bit code.  
 You can add sections `.text`, `.data`, `.bss` as you need.  
 The three things to take in consideration here are:
 - PepperOS does not use the `syscall` instruction, instead it uses the old-fashioned `int 0x80` to trigger a system call.  
 - The entry point should be labelled as `_start`.
 - At the end of the file, there should be an exit system call followed by a loop, like so:
 ```nasm
 .end:
    mov rax, 0x3C
    mov rdi, 0x0
    int 0x80
 .loop:
    jmp .loop
 ```
 For an example, look at the file [pedicel.S](../user/pedicel.S).
 ### C program
 You will find relevant headers in the `libc` directory. They contain system call wrappers, utility functions, and more. See what's implemented there and what's not.  
 To invoke a system call you can use the functions defined in `libc/syscall.h`.
 ## 2. Add the Makefile rule and variable
 Now that your code is complete, add a Makefile rule to `user/Makefile` with your program name. You can just copy-paste the rule that applies to you (either from an Assembly source or C source) and change the name of the files (.raw, .elf, etc...) in the rule.  
 For clarity, raw binaries have the `.raw` extension, and ELF ones have `.elf`.  
 You also now have to add the name of the executable to the `USER_PROGRAMS` variable at the top of the global Makefile.  
 Finally, do `make user` to compile your program.
 ## 3. Run your program
 You can now boot up PepperOS, in a VM or on real hardware, and use the kernel's shell to `list` files in the filesystem (to see if your executable was properly added), and then, run it with the `load` command. Congratulations, you made a program for a random hobby OS!
 ## 4. (Optional) debugging
 Use GDB with the `make debug` rule!  
 For your information, user programs are loaded at `0x400000`. Can be good to know to set breakpoints.
 ## 5. (Optional) contribute!
 If you like what you've done and you think it could be nice to add it to PepperOS, send it to me by e-mail: `xamidev (at) riseup (dot) net`. It may or may not be added in a future release... who knows?
@@ -2,6 +2,14 @@
 This document describes the coding style for the Pepper kernel. It is used as a guideline across all source files.
 ## Setting up a language server (optional)
 Before you do anything you might want to setup a language server with your editor. This will save you lots of time correcting errors and stuff. I use `clangd`, and generate my `compile_commands.json` like so:
 ```
 bear -- make
 ```
 ## Indentation
 Indentations should be 4 characters long.
@@ -9,8 +9,8 @@
 /* version */
 #define PEPPEROS_VERSION_MAJOR "0"
-#define PEPPEROS_VERSION_MINOR "0"
+#define PEPPEROS_VERSION_MINOR "1"
-#define PEPPEROS_VERSION_PATCH "109"
+#define PEPPEROS_VERSION_PATCH "121"
 #define PEPPEROS_SPLASH \
 "\x1b[38;5;196m                                      \x1b[38;5;231m____  _____\r\n\x1b[0m"\
 "\x1b[38;5;196m    ____  ___  ____  ____  ___  _____\x1b[38;5;231m/ __ \\/ ___/\r\n\x1b[0m"\
@@ -63,4 +63,8 @@
 /* ssp */
 #define STACK_CHK_GUARD 0x7ABA5C007ABA5C00
 /* fs */
 #define FDT_MAX 8 // Maximum amount of file descriptors per process
 #endif
@@ -0,0 +1,18 @@
 /*
 * @author  xamidev <xamidev@riseup.net>
 * @brief   PS/2 Keyboard driver
 * @license GPL-3.0-only
 */
 #ifndef INITFS_H
 #define INITFS_H
 #include <limine.h>
 int initfs_init(struct limine_file* tar_file);
 int tar_lookup(unsigned char* archive, char* filename, char** out);
 int tar_exists(const char* filename);
 int tar_read(char* filename, char* out, int count, int offset);
 void tar_list();
 #endif
@@ -8,9 +8,14 @@
 #define KERNEL_H
 #include "limine.h"
 enum ErrorCodes {
-	ENOMEM,
+	ENOMEM, // No memory
-	EIO
+	EIO,    // Input/output error
 	ENOENT, // No entry
 	EBADFD,  // Bad file descriptor
 	EMFILE,  // Too many open files
 	EINVAL  // Invalid argument
 };
 #define CLEAR_INTERRUPTS __asm__ volatile("cli")
@@ -46,6 +51,8 @@ void debug_stack_trace(unsigned int max_frames);
 const char* debug_find_symbol(uintptr_t rip, uintptr_t* offset);
 void boot_mem_display(void);
 int loader_load_raw();
 #define assert(check) do { if(!(check)) hcf(); } while(0)
 struct boot_context {
@@ -11,6 +11,7 @@
 #include <config.h>
 #include <stdint.h>
 #include <limine.h>
 #include <stdbool.h>
 typedef enum {
    READY,
@@ -18,6 +19,13 @@ typedef enum {
    DEAD
 } status_t;
 struct fd {
    int fd;
    char filename[PROCESS_NAME_MAX];  // File opened
    uint64_t cursor; // Cursor position in file
    bool open;
 };
 struct process {
    size_t pid;
    char name[PROCESS_NAME_MAX];
@@ -26,6 +34,10 @@ struct process {
    struct cpu_status* context;
 	void* root_page_table; // Process PML4 (should contain kernel PML4 in higher half [256-511]
    void* kernel_stack; // Used for interrupts (syscall: int 0x80), defines the TSS RSP0
    struct fd fdt[FDT_MAX]; // File Descriptor Table
    size_t next_free_fd;
    struct process* next;
 };
@@ -38,6 +50,7 @@ void process_exit(void);
 void process_display_list(struct process* processes_list);
-void process_create_user(struct limine_file* file, char* name);
+
 void process_create_user_raw(char* file, int size, char* name);
 #endif
@@ -13,5 +13,6 @@ char *strcpy(char *dest, const char *src);
 char *strcat(char *dest, const char *src);
 void strncpy(char* dst, const char* src, size_t n);
 int strncmp(const char* s1, const char* s2, size_t n);
 size_t strlen(const char* str);
 #endif
@@ -6,5 +6,4 @@ interface_branding: Welcome to the PepperOS disk!
 	comment: Default configuration (warning: spicy)
 	path: boot():/boot/pepperk
-	module_path: boot():/boot/hello
+	module_path: boot():/boot/initfs.tar
 	module_path: boot():/boot/pedicel
@@ -4,36 +4,105 @@
 * @license GPL-3.0-only
 */
 #include "config.h"
 #include "sched/scheduler.h"
 #include <arch/x86.h>
 #include <kernel.h>
 #include <stddef.h>
 #include <io/term/term.h>
 #include <sched/process.h>
 #include <io/kbd/ps2.h>
 #include <fs/initfs.h>
 #include <string/string.h>
 extern struct process* current_process;
-void sys_write(unsigned int fd, const char* buf, size_t count)
+// Return fd on success, -errno on error
 int sys_open(const char* filename, int flags)
 {
    if (tar_exists(filename) < 0) {
        return -ENOENT; // file doesn't exist..
    }
    // file exists here!
    if (current_process->next_free_fd >= FDT_MAX) {
        return -EMFILE;
    }
    int fd = current_process->next_free_fd++;
    current_process->fdt[fd].fd = fd;
    current_process->fdt[fd].open = true;
    current_process->fdt[fd].cursor = 0;
    strncpy(current_process->fdt[fd].filename, filename, PROCESS_NAME_MAX - 1);
    return fd;
 }
 // Return 0 on success, -EBADFD if invalid FD
 int sys_close(int fd)
 {
    if (fd < 0 || fd >= FDT_MAX) {
        return -EBADFD;
    }
    if (!current_process->fdt[fd].open) {
        return -EBADFD; // FD not opened in the first place
    }
    current_process->fdt[fd].open = false;
    current_process->fdt[fd].filename[0] = '\0';
    current_process->fdt[fd].cursor = 0;
    return 0;
 }
 // Should return the number of bytes read
 int sys_read(unsigned int fd, char* buf, size_t count)
 {
    size_t i;
    switch (fd) {
        case 0: //read from stdin (keyboard)
            for (i=0; i<count; i++) {
                buf[i] = keyboard_getchar();
            }
            return i;
        case 1: // from stdout
        case 2: // from stderr
            return -EBADFD;
        default: // from an open file?
            if (current_process->fdt[fd].open == false) {
                return -EBADFD; // File descriptor wasn't open
            }
            // Here fd refers to a valid opened file..
            int sz = tar_read(current_process->fdt[fd].filename, buf, count,
                            current_process->fdt[fd].cursor);
            if (sz == 0) {
                return -ENOENT;
            } else {
                current_process->fdt[fd].cursor += sz;
                return sz;
            }
    }
    return -EBADFD;
 }
 // TODO: Should have a return value: number of bytes written on success, -1 on error (errno set) 
 int sys_write(unsigned int fd, const char* buf, size_t count)
 {
    switch (fd) {
        case 1: //stdout
            for (size_t i=0; i<count; i++) {
                internal_putc(buf[i], NULL);
            }
            break;
        case 2: //stderr
            for (size_t i=0; i<count; i++) {
                internal_putc(buf[i], NULL);
            }
-            break;
+            return count;
        default:
            return -EBADFD;
    }
 }
-void sys_exit(int error_code)
+int sys_exit(int error_code)
 {
    current_process->status = DEAD;
-    DEBUG("exiting process PID=%u name=%s", current_process->pid, current_process->name);
+    DEBUG("(pid=%u, name=%s)", current_process->pid, current_process->name);
    return error_code;
 }
 /*
@@ -56,22 +125,36 @@ void sys_exit(int error_code)
 */
 struct cpu_status* syscall_handler(struct cpu_status* regs)
 {
    DEBUG("Syscall %lx with (arg0=%lx arg1=%lx)", regs->rax, regs->rdi, regs->rsi);
    switch (regs->rax)
    {
-        case 0: //sys_read
+        case 0:
            DEBUG("sys_read(fd=%u, buf=%p, count=%u)", regs->rdi, regs->rsi, regs->rdx);
            regs->rax = sys_read(regs->rdi, (char*)regs->rsi, regs->rdx);
            break;
-        case 1: //sys_write
+        case 1:
-            sys_write(regs->rdi, (char*)regs->rsi, regs->rdx);
+            DEBUG("sys_write(fd=%u, buf=%p, count=%u)", regs->rdi, regs->rsi, regs->rdx);
            regs->rax = sys_write(regs->rdi, (char*)regs->rsi, regs->rdx);
            break;
-        case 60: //sys_exit
+        case 2:
-            sys_exit(regs->rdi);
+            DEBUG("sys_open(filename=%s, flags=%u)", regs->rdi, regs->rsi);
            regs->rax = sys_open((const char*)regs->rdi, regs->rsi);
            break;
        case 3:
            DEBUG("sys_close(fd=%u)", regs->rdi);
            regs->rax = sys_close(regs->rdi);
            break;
        case 60:
            DEBUG("sys_exit(error_code=%d)", regs->rdi);
            regs->rax = sys_exit(regs->rdi);
            break;
        default:
            DEBUG("Bad syscall! (rax=%p, rdi=%p, rsi=%p, rdx=%p)",
                    regs->rax, regs->rdi, regs->rsi, regs->rdx);
            regs->rax = 0xbad515ca11;
            break;
    }
    DEBUG("returned rax=%p (%u)", regs->rax, regs->rax);
    return regs;
 }
@@ -0,0 +1,147 @@
 /*
 * @author  xamidev <xamidev@riseup.net>
 * @brief   Initial TAR filesystem (read-only)
 * @license GPL-3.0-only
 */
 #include <sched/process.h>
 #include <limine.h>
 #include <fs/initfs.h>
 #include <kernel.h>
 #include <mem/utils.h>
 #include <string/string.h>
 void* archive_start_addr;
 uint64_t archive_size;
 /*
 * tar_oct2bin - convert octal size string to an integer 
 * @str:  octal size string
 * @size: size of string
 *
 * Return:
 * $n - file size as an integer
 */
 int tar_oct2bin(unsigned char* str, int size)
 {
    int n = 0;
    unsigned char* c = str;
    while (size-- > 0) {
        n *= 8;
        n += *c - '0';
        c++;
    }
    return n;
 }
 /*
 * tar_lookup - lookup a file in the TAR file
 * @archive:  pointer to beginning of the archive
 * @filename: file to lookup (absolute path)
 * @out:      where to store file data if found
 *
 * Return:
 * $filesize - size of the file, if found 
 * $-ENOENT  - file not found
 */
 int tar_lookup(unsigned char* archive, char* filename, char** out)
 {
    unsigned char *ptr = archive;
    while (!memcmp(ptr + 257, "ustar", 5)) {
        int filesize = tar_oct2bin(ptr + 0x7c, 11);
        if (!memcmp(ptr, filename, strlen(filename) + 1)) {
            *out = (char*)(ptr + 512);
            return filesize;
        }
        ptr += (((filesize + 511) / 512) + 1) * 512;
    }
    return -ENOENT;
 }
 /*
 * tar_list - list all files present in archive
 */
 void tar_list()
 {
    printf("++ Contents of initial filesystem ++\r\n\r\n");
    unsigned char *ptr = archive_start_addr;
    while (!memcmp(ptr + 257, "ustar", 5)) {
        int filesize = tar_oct2bin(ptr + 0x7c, 11);
        char* filename = (char*)ptr;
        printf("file: %s\r\n", filename);
        ptr += (((filesize + 511) / 512) + 1) * 512;
    }
 }
 /*
 * tar_read - read a file in the TAR archive
 * @filename: file to read (absolute path)
 * @out:      where to store file data if found
 * @count:    amount of bytes to read
 * @offset:   read from byte offset (0 for none)
 *
 * Return:
 * $filesize - size of the file, if found 
 * $-ENOENT  - file not found
 */
 int tar_read(char* filename, char* out, int count, int offset)
 {
    char* file_data;
    int filesize = tar_lookup(archive_start_addr, filename, &file_data);
    if (filesize <= 0) {
        return filesize;
    }
    if (offset >= filesize) {
        return -EINVAL;
    }
    int remaining = filesize - offset;
    int to_read = remaining < count ? remaining : count;
    memcpy(out, file_data + offset, to_read);
    return to_read;
 }
 /*
 * tar_exists - check if a file exists in the TAR archive
 * @filename: file to check (absolute path)
 *
 * Return:
 * $filesize - size of the file, if found 
 * $-ENOENT  - file not found
 */
 int tar_exists(const char* filename)
 {
    unsigned char* ptr = archive_start_addr;
    while (!memcmp(ptr + 257, "ustar", 5)) {
        int filesize = tar_oct2bin(ptr + 0x7c, 11);
        if (!memcmp(ptr, filename, strlen(filename) + 1)) {
            return filesize;
        }
        ptr += (((filesize + 511) / 512) + 1) * 512;
    }
    return -ENOENT;
 }
 /*
 * initfs_init - initialize the TAR initial filesystem
 * @tar_file: pointer to the Limine-loaded archive
 *
 * Return:
 * $0       - on success
 */
 int initfs_init(struct limine_file* tar_file)
 {
    archive_start_addr = tar_file->address;
    archive_size = tar_file->size;
    DEBUG("Loaded TAR initial filesystem (initfs.tar)");
    return 0;
 }
@@ -4,6 +4,7 @@
 * @license GPL-3.0-only
 */
 #include "fs/initfs.h"
 #include <io/term/term.h>
 #include <config.h>
 #include <io/kbd/ps2.h>
@@ -42,16 +43,16 @@ void pedicel_main(void* arg)
        keyboard_getline(input_buf, PEDICEL_INPUT_SIZE);
        if (strncmp(input_buf, "help", 4) == 0) {
-            printf("\r\nYou are currently running the test kernel shell. This is not\r\n"
+            printf("++ shell builtins ++\r\n\r\n"
-                        "a fully-fledged shell like you'd find in a complete operating system,\r\n"
+                            "\tclear   - clear the screen\r\n"
-                        "but rather a toy to play around in the meantime.\r\n\r\n"
+                            "\tpanic   - trigger a test panic\r\n"
-                            "clear   - clear the screen\r\n"
+                            "\tsyscall - trigger int 0x80\r\n"
-                            "panic   - trigger a test panic\r\n"
+                            "\tpf      - trigger a page fault\r\n"
-                            "syscall - trigger int 0x80\r\n"
+                            "\tnow     - get current date\r\n"
-                            "pf      - trigger a page fault\r\n"
+                            "\tsmash   - smash the stack\r\n"
-                            "now     - get current date\r\n"
+                            "\tmem     - get used heap info\r\n"
-                            "smash   - smash the stack\r\n"
+                            "\tload    - load an user executable\r\n"
-                            "mem     - get used heap info\r\n");
+                            "\tlist    - list initfs.tar contents\r\n");
            continue;
        }
@@ -96,6 +97,16 @@ void pedicel_main(void* arg)
            continue;
        }
        if (strncmp(input_buf, "load", 4) == 0) {
            loader_load_raw();
            continue;
        }
        if (strncmp(input_buf, "list", 4) == 0) {
            tar_list();
            continue;
        }
        printf("%s: command not found\r\n", input_buf);
    }
 }
@@ -0,0 +1,32 @@
 /*
 * @author  xamidev <xamidev@riseup.net>
 * @brief   Executable loader
 * @license GPL-3.0-only
 */         
 #include <stddef.h>
 #include <fs/initfs.h>
 #include <kernel.h>
 #include <sched/process.h>
 #include <io/kbd/ps2.h>
 #include <string/string.h>
 extern void* archive_start_addr;
 int loader_load_raw()
 {
    char input_buf[PEDICEL_INPUT_SIZE] = {0};
    do {
        printf("file> ");
        keyboard_getline(input_buf, PEDICEL_INPUT_SIZE);   
    } while (strncmp(input_buf, "", 1) == 0);
    char* data = NULL;
    int sz = tar_lookup(archive_start_addr, input_buf,&data);
    if (sz > 0) {
        process_create_user_raw(data, sz, input_buf);
        return 0; // TODO: should return something else on error
    }
    printf("Couldn't load file '%s'\r\n", input_buf);
    return 1;
 }
@@ -25,6 +25,7 @@
 #include <io/term/flanterm_backends/fb.h>
 #include <arch/x86.h>
 #include <boot/boot.h>
 #include <fs/initfs.h>
 // Limine version used
 __attribute__((used, section(".limine_requests")))
@@ -77,14 +78,6 @@ void idle_main(void* arg)
 	}
 }
 void thing_main(void* arg)
 {
 	printf("What's your name, pal? ");
 	char name[10];
 	keyboard_getline(name, 10);
 	printf("\r\n{%s} is such a nice name!\r\n", name);
 }
 extern uintptr_t kheap_start;
 /*
@@ -120,16 +113,13 @@ void kmain()
 	idle_proc = process_create("idle", (void*)idle_main, 0);
 	if (!boot_ctx.module) {
-		panic(NULL, "could not load 'hello' executable :(");
+		panic(NULL, "could not load initfs.tar :(");
 	}
 	if (boot_ctx.module->module_count == 1) {
 		initfs_init(boot_ctx.module->modules[0]);
 	}
 	if (boot_ctx.module->module_count == 2) {
 		file = boot_ctx.module->modules[0];
 		DEBUG("file: addr=%p size=%u", file->address, file->size);
 		process_create_user(file, "hello");
-		file = boot_ctx.module->modules[1];
+	process_create("kshell", (void*)pedicel_main, 0);
 		process_create_user(file, "pedicel");
 	}
 	scheduler_init();
 	printf(PEPPEROS_SPLASH);
@@ -222,23 +222,19 @@ void process_jump_to_user(uintptr_t stack_top, uintptr_t user_code)
        " :: "r"(stack_top), "r"(user_code));
 }
 // Kernel stack used for interrupts from userland process.
 // Should be set in TSS.RSP0 when switching to userland process.
 uint8_t interrupt_stack[0x8000];
 extern struct tss tss;
 /*
- * process_create_user - Create a new user process
+ * process_create_user_raw - Create a new user process from raw binary
- * @file: pointer to Limine file structure
+ * @file: pointer to beginning of binary
 * @size: size of the binary
 * @name: name for the new process
 *
- * This function takes a loaded Limine executable
+ * This function takes an executable loaded in memory
- * module, and maps its code, a user stack, sets the
+ * and maps its code, a user stack, sets the TSS RSP0
- * TSS RSP0 for interrupts, and finally jumps to the
+ * for interrupts, and finally jumps to the user code.
 * user code.
 */
-void process_create_user(struct limine_file* file, char* name)
+void process_create_user_raw(char* file, int size, char* name)
 {
    CLEAR_INTERRUPTS;
    struct process* proc = (struct process*)kmalloc(sizeof(struct process));
@@ -246,8 +242,10 @@ void process_create_user(struct limine_file* file, char* name)
    if (!proc || !ctx) panic(NULL, "out of memory while creating user process");
    memset(proc, 0, sizeof(struct process));
    memset(ctx, 0, sizeof(struct cpu_status));
    strncpy(proc->name, name, PROCESS_NAME_MAX);
    memset(ctx, 0, sizeof(struct cpu_status)); // set GP registers to zero
    proc->pid = next_free_pid++;
    proc->status = READY;
    proc->next = 0;
@@ -256,8 +254,26 @@ void process_create_user(struct limine_file* file, char* name)
    proc->context->iret_cs = USER_CODE_SEGMENT | 3;
    proc->context->iret_flags = 0x202; // Interrupt Flag set
-    void* exec_addr = file->address;
+        /* Set basic entries for the process's File Descriptor Table */
-    uint64_t exec_size = file->size;
+    proc->fdt[0].fd = 0;
    proc->fdt[0].open = true;
    proc->fdt[0].cursor = 0;
    strncpy(proc->fdt[0].filename, "stdin", PROCESS_NAME_MAX - 1);
    proc->fdt[1].fd = 1;
    proc->fdt[1].open = true;
    proc->fdt[1].cursor = 0;
    strncpy(proc->fdt[1].filename, "stdout", PROCESS_NAME_MAX - 1);
    proc->fdt[2].fd = 2;
    proc->fdt[2].open = true;
    proc->fdt[2].cursor = 0;
    strncpy(proc->fdt[2].filename, "stderr", PROCESS_NAME_MAX - 1);
    proc->next_free_fd = 3; // file descriptors are also bump-allocated
    void* exec_addr = (void*)file;
    uint64_t exec_size = size;
    uint64_t* user_pml4 = vmm_create_address_space();
    if (!user_pml4) panic(NULL, "failed to create user address space");
@@ -99,3 +99,11 @@ int strncmp(const char* s1, const char* s2, size_t n)
        return ( *(unsigned char *)s1 - *(unsigned char *)s2 );
    }
 }
 // BSD implementation
 size_t strlen(const char* str)
 {
        const char* s;
        for (s = str; *s; ++s);
        return (s - str);
 }
@@ -0,0 +1,18 @@
 CC := x86_64-elf-gcc
 CC_FLAGS := -ffreestanding -nostdlib -fno-pic -mno-red-zone -Ilibc
 LD := x86_64-elf-ld
 BUILDDIR := ../build
 LIBDIR := libc
 all: pedicel apex
 pedicel:
 	nasm -f bin pedicel.S -o $(BUILDDIR)/pedicel.raw
 apex:
 	$(CC) $(CC_FLAGS) -c apex.c -o $(BUILDDIR)/apex.o
 	nasm -f elf64 $(LIBDIR)/crt0.S -o $(BUILDDIR)/crt0.o
 	$(LD) -T $(LIBDIR)/linker.ld $(BUILDDIR)/crt0.o $(BUILDDIR)/apex.o -o $(BUILDDIR)/apex.elf
 	objcopy -O binary $(BUILDDIR)/apex.elf $(BUILDDIR)/apex.raw
@@ -0,0 +1,7 @@
 #include <syscall.h>
 int main() {
    const char* msg = "hi from C userland\r\n";
    write(1, msg, 21);
    return 42;
 }
@@ -1,21 +0,0 @@
 bits 64
 section .data
    hi db "hi from userland :) we did it man", 0
 section .text
 hello:
    mov rax, 0x1        ;sys_write
    mov rdi, 0x1        ;stdout
    lea rsi, [rel hi]   ;char* buf
    mov rdx, 33         ;count
    int 0x80
 .end:
    mov rax, 0x3C       ;sys_exit
    mov rdi, 0x0        ;error_code
    int 0x80
 .loop:
    jmp .loop
@@ -0,0 +1,18 @@
 bits 64
 global _start
 extern main
 section .text
 ; Begin the program with main() function
 _start:
    call main
 ; Exit the program by exit() syscall
 .exit:
    mov rdi, rax    ; put the value of "return X;" (rax) as arg1 (error_code)
    mov rax, 60     ; sys_exit
    int 0x80
 .loop:
    jmp .loop
@@ -0,0 +1,22 @@
 ENTRY(_start)
 SECTIONS
 {
    . = 0x400000;
    .text : {
        *(.text*)
    }
    .rodata : {
        *(.rodata*)
    }
    .data : {
        *(.data*)
    }
    .bss : {
        *(.bss*)
    }
 }
@@ -0,0 +1,30 @@
 #pragma once
 // 3 because 3 arguments to the call, get it??
 static inline long syscall3(long n, long a, long b, long c) {
    long ret;
    __asm__ volatile (
        "int $0x80"
        : "=a"(ret)
        : "a"(n), "D"(a), "S"(b), "d"(c)
        : "memory"
    );
    return ret;
 }
 static inline void write(int fd, const char* buf, long len) {
    syscall3(1, fd, (long)buf, len);
 }
 static inline void exit(int code) {
    __asm__ volatile (
        "int $0x80"
        :
        : "a"(60), "D"(code)
        : "memory"
    );
    for (;;);
 }
@@ -1,7 +1,8 @@
 bits 64
 section .data
-hello db 0x0A, 0x0D, "User program 2 speaking", 0
+hello db 0x0A, 0x0D, "TEST PROGRAM...", 0x0A, 0x0D, 0
 filename db "wow.txt", 0
 section .text
@@ -9,7 +10,29 @@ _start:
    mov rax, 0x1    ;sys_write
    mov rdi, 0x1    ;stdout
    lea rsi, [rel hello]
-    mov rdx, 25     ;count
+    mov rdx, 19     ;count
    int 0x80
    ; Open a file
    mov rax, 0x2            ;sys_open
    lea rdi, [rel filename] ;filename
    mov rsi, 0x0            ;flags
    int 0x80
    mov rdi, rax            ;fd
    mov rax, 0x0            ;sys_read
    lea rsi, [rel buf]      ;buf
    mov rdx, 33             ;count
    int 0x80
    mov rax, 0x1        ;sys_write
    mov rdi, 0x1        ;stdout
    lea rsi, [rel buf]  ;buf
    mov rdx, 33         ;count
    int 0x80
    mov rax, 0x3        ;sys_close
    mov rdi, 0x3        ;fd
    int 0x80
 ; when we are ready to have an os specific toolchain,
@@ -23,3 +46,6 @@ _start:
 .loop:
    jmp .loop
 section .bss
 buf resb 10
@@ -0,0 +1 @@
 hi from a file opened in usermode
Author	SHA1	Message	Date
xamidev	5e0bd98874	Merge pull request 'should be right?' (#20 ) from sys_fix into main Reviewed-on: #20	2026-05-08 12:59:05 +02:00
xamidev	8c5911bef9	Update README.md	2026-05-08 12:58:08 +02:00
xamidev	eb8a03facd	Load raw C binary + docs	2026-05-08 12:38:16 +02:00
xamidev	9a1a0e428a	tar_list	2026-05-06 14:04:28 +02:00
xamidev	c061da4d81	sys_read/open/close	2026-05-06 13:29:35 +02:00
xamidev	63e9a761a3	should be right?	2026-05-06 11:26:33 +02:00
xamidev	935564c4b2	Merge pull request 'Tar filesystem' (#19 ) from tarfs into main Reviewed-on: #19	2026-05-06 09:24:41 +02:00
xamidev	c00a247ead	Kshell: load executable command	2026-05-04 20:38:10 +02:00
xamidev	ccb6ca89f1	Load TAR archive + run raw user program	2026-05-04 20:24:18 +02:00
xamidev	e399ec6a46	alpha 0.1.121	2026-04-10 15:04:52 +02:00
xamidev	dd9315f2f1	Update docs/MANUAL.md	2026-04-06 14:54:07 +02:00
xamidev	f91831616c	Merge pull request 'user-scheduler' (#18 ) from user-scheduler into main Reviewed-on: #18	2026-04-05 19:37:15 +02:00