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Comprehensive technical documentation covering: - Hardware: OCS/ECS/AGA custom chip registers, Copper & Blitter deep dives - Boot sequence: cold boot through startup-sequence - Binary format: HUNK executable spec, relocation, debug info - Linking & ABI: .fd files, LVO tables, register calling conventions - Exec kernel: tasks, interrupts, memory, signals, semaphores - AmigaDOS: file I/O, FFS/OFS layout, CLI/Shell scripting - Graphics: planar bitmaps, Copper programming, HAM/EHB modes - Intuition: screens, windows, IDCMP, BOOPSI - Devices: trackdisk, SCSI, serial, timer, audio, keyboard - Libraries: utility, expansion, IFFParse, locale, ARexx - Networking: bsdsocket API, SANA-II, TCP/IP stack comparison - Toolchain: GCC, vasm/vlink, SAS/C, NDK, debugging - Reverse engineering: IDA/Ghidra setup, compiler fingerprints, case studies - CPU & MMU: 68040/060 emulation libs, PMMU, cache management - Driver development: SANA-II, Picasso96/RTG, AHI audio All files include breadcrumb navigation. No local paths or proprietary content.
3.2 KiB
Serial Debugging — kprintf and Serial Output
Overview
The Amiga's built-in serial port is the primary low-level debugging channel. kprintf() (kernel printf) and RawPutChar() write directly to the serial hardware, bypassing dos.library and working even from interrupt context or before OS initialization.
kprintf() — Kernel Printf
kprintf() is a ROM debug function present in Kickstart 1.3 and later debug ROMs. It formats a string and outputs each character via RawPutChar.
/* Prototype (exec internal, not in NDK — declare manually): */
void kprintf(const char *fmt, ...);
/* Arguments in: D1=fmt, stack args (unlike standard AmigaOS register ABI) */
Calling kprintf from Assembly
MOVEA.L 4.W, A6 ; SysBase
LEA _fmt_str(PC), A0 ; format string
MOVE.L A0, -(SP) ; push as stack argument
MOVE.L A0, D1 ; some implementations use D1
JSR (-$F0,A6) ; RawDoFmt or debug rom entry
; OR for ROM debug builds:
JSR _kprintf
Note
kprintfis not available in standard Kickstart 3.1 release ROMs. Usedebug.libstubs (dprintf) orRawDoFmt + RawPutCharinstead.
RawDoFmt + RawPutChar — Universal Approach
This works on all Kickstart versions (1.2+):
/* Format into a buffer and output via RawPutChar */
static void serial_putchar(UBYTE c, APTR dummy) {
/* write directly to serial data register */
volatile UWORD *SERDATR = (UWORD *)0xDFF018;
volatile UWORD *SERDATW = (UWORD *)0xDFF030;
volatile UWORD *SERDATSTAT;
/* Wait for TBE (transmit buffer empty) */
while (!(*SERDATR & 0x2000));
*SERDATW = 0x0100 | c; /* 8 bits + start bit */
}
void dbg_printf(const char *fmt, ...) {
UBYTE buf[256];
va_list args;
va_start(args, fmt);
/* RawDoFmt(fmt, args, putChar, buf) */
RawDoFmt((STRPTR)fmt, &args,
(VOID (*)())serial_putchar, buf);
va_end(args);
}
Or simpler — write to the serial hardware directly:
static void SerPutChar(UBYTE c) {
while (!(*((volatile UWORD *)0xDFF018) & 0x2000)); /* wait TBE */
*((volatile UWORD *)0xDFF030) = 0x0100 | c;
}
debug.lib (SAS/C)
SAS/C ships debug.lib providing dprintf:
#include <debug.h>
dprintf("mylib: Open called, name=%s\n", name);
Output goes to the serial port at the rate set by SERPER (default 9600 baud on startup, 115200 if set).
Setting Baud Rate
/* Set serial to 115200 baud (PAL, 3.546895 MHz clock): */
/* SERPER = (clock / (16 * baud)) - 1 */
/* = (3546895 / (16 * 115200)) - 1 = 0 */
volatile UWORD *SERPER = (UWORD *)0xDFF032;
*SERPER = 0x0000; /* 115200 on PAL */
Host-Side Capture
# macOS (USB-serial adapter):
screen /dev/cu.usbserial-XXXX 115200
# or:
stty -f /dev/cu.usbserial-XXXX 115200 raw && cat /dev/cu.usbserial-XXXX
MiSTer FPGA: the UART bridge is exposed on the MiSTer IO board or via the DE10-Nano UART.
References
- NDK39:
exec/execbase.h—RawDoFmt,RawPutCharLVOs 01_hardware/ocs_a500/paula_serial.md— SERPER, SERDATR, SERDATW register details- Aminet:
debug/misc/dprintf.lha