使用Rust在树莓派上编写操作系统 - 06 - UART的链式加载

本文所有内容均为翻译，原文：Tutorial 06 - UART Chainloader；原项目：Operating System development tutorials in Rust on the Raspberry Pi

概述

• 用SD卡上的镜像启动树莓派感觉很棒，但如果对每个新的二进制文件，都需要手动将其放在SD卡上就会非常麻烦。因此，本章我们将编写一个链式加载器。
• 这是我们最后一次手动拷贝镜像到SD卡上。后面的每章教程都会在Makefile中提供一个chainboot目标，以便通过UART加载内核。

注意

请注意，若仅查看源码差异，则很难掌握本章教程中出现的一些新功能。

关键就在boot.s中，我们正在编写一段位置无关代码，代码能够自动确定固件从什么位置(0x8_0000)加载二进制文件，以及应当链接到什么位置(0x200_0000，请参阅link.ld)。然后二进制文件将自身从加载地址复制到链接地址（即“重定位”自身），再跳转到重定位版本的_start_rust()中。

由于链式加载器自己已经“让出位置”，它现在就可以从UART接收另一个内核二进制文件，并将其复制到树莓派固件的标准加载地址0x8_0000。最后，它跳转到0x8_0000再透明的执行新加载的二进制文件，仿佛该文件是从SD卡中加载似的。

请耐心等待，等我一有时间，就会将这个过程写成详尽的文档。不过目前，请参阅本章教程看做一个方便的启动器，该驱动器允许我们快速启动后续教程章节中新的内核二进制文件。

安装并测试

我们的链式加载器叫做MiniLoad，其灵感来自raspbootin。

在本章教程中试用MiniLoad：

1. 根据目标硬件，运行：make或者BSP=rpi4 make。
2. 将kernel8.img复制到SD卡，并将SD卡插回到树莓派。
3. 根据目标硬件，运行make chainboot或者BSP=rpi4 make chainboot。
4. 连接USB串口线到宿主PC。
   • 按照本项目的根README接线。
   • 一定确保没有连接USB串口的电源引脚。只连接了RX/TX和GND。
5. 为树莓派连接(USB)电源。
6. 观察加载程序通过UART获取内核：

❗注意：make chainboot的默认串行设备名称为/dev/ttyUSB0。对于不同操作系统的宿主机，设备名称可能会有所不同。例如，在macOS上，名称可能类似于/dev/tty.usbserial-0001。这种情况下，需要明确给出名称：

$ DEV_SERIAL=/dev/tty.usbserial-0001 make chainboot

$ make chainboot
[...]
Minipush 1.0

[MP] ⏳ Waiting for /dev/ttyUSB0
[MP] ✅ Serial connected
[MP] 🔌 Please power the target now
 __  __ _      _ _                 _
|  \/  (_)_ _ (_) |   ___  __ _ __| |
| |\/| | | ' \| | |__/ _ \/ _` / _` |
|_|  |_|_|_||_|_|____\___/\__,_\__,_|

           Raspberry Pi 3

[ML] Requesting binary
[MP] ⏩ Pushing 6 KiB ==========================================🦀 100% 0 KiB/s Time: 00:00:00
[ML] Loaded! Executing the payload now

[0] mingo version 0.5.0
[1] Booting on: Raspberry Pi 3
[2] Drivers loaded:
      1. BCM GPIO
      2. BCM PL011 UART
[3] Chars written: 117
[4] Echoing input now

实验

本章教程中的Makefile有一个额外的目标——qemuasm——可以让您更好地观察内核内核在重定位后，是如何从加载地址0x80_XXX跳转到位于0x0200_0XXX的重定位代码处的：

$ make qemuasm
[...]
N:
0x00080030:  58000140  ldr      x0, #0x80058
0x00080034:  9100001f  mov      sp, x0
0x00080038:  58000141  ldr      x1, #0x80060
0x0008003c:  d61f0020  br       x1

----------------
IN:
0x02000070:  9400044c  bl       #0x20011a0

----------------
IN:
0x020011a0:  90000008  adrp     x8, #0x2001000
0x020011a4:  90000009  adrp     x9, #0x2001000
0x020011a8:  f9446508  ldr      x8, [x8, #0x8c8]
0x020011ac:  f9446929  ldr      x9, [x9, #0x8d0]
0x020011b0:  eb08013f  cmp      x9, x8
0x020011b4:  54000109  b.ls     #0x20011d4
[...]

与上一章代码的区别

diff -uNr 05_drivers_gpio_uart/Cargo.toml 06_uart_chainloader/Cargo.toml
--- 05_drivers_gpio_uart/Cargo.toml
+++ 06_uart_chainloader/Cargo.toml
@@ -1,6 +1,6 @@
 [package]
 name = "mingo"
-version = "0.5.0"
+version = "0.6.0"
 authors = ["Andre Richter <andre.o.richter@gmail.com>"]
 edition = "2021"

Binary files 05_drivers_gpio_uart/demo_payload_rpi3.img and 06_uart_chainloader/demo_payload_rpi3.img differ
Binary files 05_drivers_gpio_uart/demo_payload_rpi4.img and 06_uart_chainloader/demo_payload_rpi4.img differ

diff -uNr 05_drivers_gpio_uart/Makefile 06_uart_chainloader/Makefile
--- 05_drivers_gpio_uart/Makefile
+++ 06_uart_chainloader/Makefile
@@ -23,27 +23,29 @@

 # BSP-specific arguments.
 ifeq ($(BSP),rpi3)
-    TARGET            = aarch64-unknown-none-softfloat
-    KERNEL_BIN        = kernel8.img
-    QEMU_BINARY       = qemu-system-aarch64
-    QEMU_MACHINE_TYPE = raspi3
-    QEMU_RELEASE_ARGS = -serial stdio -display none
-    OBJDUMP_BINARY    = aarch64-none-elf-objdump
-    NM_BINARY         = aarch64-none-elf-nm
-    READELF_BINARY    = aarch64-none-elf-readelf
-    LINKER_FILE       = src/bsp/raspberrypi/link.ld
-    RUSTC_MISC_ARGS   = -C target-cpu=cortex-a53
+    TARGET                 = aarch64-unknown-none-softfloat
+    KERNEL_BIN             = kernel8.img
+    QEMU_BINARY            = qemu-system-aarch64
+    QEMU_MACHINE_TYPE      = raspi3
+    QEMU_RELEASE_ARGS      = -serial stdio -display none
+    OBJDUMP_BINARY         = aarch64-none-elf-objdump
+    NM_BINARY              = aarch64-none-elf-nm
+    READELF_BINARY         = aarch64-none-elf-readelf
+    LINKER_FILE            = src/bsp/raspberrypi/link.ld
+    RUSTC_MISC_ARGS        = -C target-cpu=cortex-a53
+    CHAINBOOT_DEMO_PAYLOAD = demo_payload_rpi3.img
 else ifeq ($(BSP),rpi4)
-    TARGET            = aarch64-unknown-none-softfloat
-    KERNEL_BIN        = kernel8.img
-    QEMU_BINARY       = qemu-system-aarch64
-    QEMU_MACHINE_TYPE =
-    QEMU_RELEASE_ARGS = -serial stdio -display none
-    OBJDUMP_BINARY    = aarch64-none-elf-objdump
-    NM_BINARY         = aarch64-none-elf-nm
-    READELF_BINARY    = aarch64-none-elf-readelf
-    LINKER_FILE       = src/bsp/raspberrypi/link.ld
-    RUSTC_MISC_ARGS   = -C target-cpu=cortex-a72
+    TARGET                 = aarch64-unknown-none-softfloat
+    KERNEL_BIN             = kernel8.img
+    QEMU_BINARY            = qemu-system-aarch64
+    QEMU_MACHINE_TYPE      =
+    QEMU_RELEASE_ARGS      = -serial stdio -display none
+    OBJDUMP_BINARY         = aarch64-none-elf-objdump
+    NM_BINARY              = aarch64-none-elf-nm
+    READELF_BINARY         = aarch64-none-elf-readelf
+    LINKER_FILE            = src/bsp/raspberrypi/link.ld
+    RUSTC_MISC_ARGS        = -C target-cpu=cortex-a72
+    CHAINBOOT_DEMO_PAYLOAD = demo_payload_rpi4.img
 endif

 QEMU_MISSING_STRING = "This board is not yet supported for QEMU."
@@ -75,8 +77,8 @@
     -O binary

 EXEC_QEMU          = $(QEMU_BINARY) -M $(QEMU_MACHINE_TYPE)
-EXEC_TEST_DISPATCH = ruby ../common/tests/dispatch.rb
-EXEC_MINITERM      = ruby ../common/serial/miniterm.rb
+EXEC_TEST_MINIPUSH = ruby tests/chainboot_test.rb
+EXEC_MINIPUSH      = ruby ../common/serial/minipush.rb

 ##------------------------------------------------------------------------------
 ## Dockerization
@@ -95,7 +97,7 @@
 ifeq ($(shell uname -s),Linux)
     DOCKER_CMD_DEV = $(DOCKER_CMD_INTERACT) $(DOCKER_ARG_DEV)

-    DOCKER_MINITERM = $(DOCKER_CMD_DEV) $(DOCKER_ARG_DIR_COMMON) $(DOCKER_IMAGE)
+    DOCKER_CHAINBOOT = $(DOCKER_CMD_DEV) $(DOCKER_ARG_DIR_COMMON) $(DOCKER_IMAGE)
 endif


@@ -103,7 +105,7 @@
 ##--------------------------------------------------------------------------------------------------
 ## Targets
 ##--------------------------------------------------------------------------------------------------
-.PHONY: all $(KERNEL_ELF) $(KERNEL_BIN) doc qemu miniterm clippy clean readelf objdump nm check
+.PHONY: all $(KERNEL_ELF) $(KERNEL_BIN) doc qemu chainboot clippy clean readelf objdump nm check

 all: $(KERNEL_BIN)

@@ -132,7 +134,7 @@
 ##------------------------------------------------------------------------------
 ifeq ($(QEMU_MACHINE_TYPE),) # QEMU is not supported for the board.

-qemu:
+qemu qemuasm:
 	$(call colorecho, "\n$(QEMU_MISSING_STRING)")

 else # QEMU is supported.
@@ -140,13 +142,18 @@
 qemu: $(KERNEL_BIN)
 	$(call colorecho, "\nLaunching QEMU")
 	@$(DOCKER_QEMU) $(EXEC_QEMU) $(QEMU_RELEASE_ARGS) -kernel $(KERNEL_BIN)
+
+qemuasm: $(KERNEL_BIN)
+	$(call colorecho, "\nLaunching QEMU with ASM output")
+	@$(DOCKER_QEMU) $(EXEC_QEMU) $(QEMU_RELEASE_ARGS) -kernel $(KERNEL_BIN) -d in_asm
+
 endif

 ##------------------------------------------------------------------------------
-## Connect to the target's serial
+## Push the kernel to the real HW target
 ##------------------------------------------------------------------------------
-miniterm:
-	@$(DOCKER_MINITERM) $(EXEC_MINITERM) $(DEV_SERIAL)
+chainboot: $(KERNEL_BIN)
+	@$(DOCKER_CHAINBOOT) $(EXEC_MINIPUSH) $(DEV_SERIAL) $(CHAINBOOT_DEMO_PAYLOAD)

 ##------------------------------------------------------------------------------
 ## Run clippy
@@ -210,7 +217,8 @@
 ##------------------------------------------------------------------------------
 test_boot: $(KERNEL_BIN)
 	$(call colorecho, "\nBoot test - $(BSP)")
-	@$(DOCKER_TEST) $(EXEC_TEST_DISPATCH) $(EXEC_QEMU) $(QEMU_RELEASE_ARGS) -kernel $(KERNEL_BIN)
+	@$(DOCKER_TEST) $(EXEC_TEST_MINIPUSH) $(EXEC_QEMU) $(QEMU_RELEASE_ARGS) \
+		-kernel $(KERNEL_BIN) $(CHAINBOOT_DEMO_PAYLOAD)

 test: test_boot


diff -uNr 05_drivers_gpio_uart/src/_arch/aarch64/cpu/boot.s 06_uart_chainloader/src/_arch/aarch64/cpu/boot.s
--- 05_drivers_gpio_uart/src/_arch/aarch64/cpu/boot.s
+++ 06_uart_chainloader/src/_arch/aarch64/cpu/boot.s
@@ -18,6 +18,17 @@
 	add	\register, \register, #:lo12:\symbol
 .endm

+// Load the address of a symbol into a register, absolute.
+//
+// # Resources
+//
+// - https://sourceware.org/binutils/docs-2.36/as/AArch64_002dRelocations.html
+.macro ADR_ABS register, symbol
+	movz	\register, #:abs_g2:\symbol
+	movk	\register, #:abs_g1_nc:\symbol
+	movk	\register, #:abs_g0_nc:\symbol
+.endm
+
 .equ _core_id_mask, 0b11

 //--------------------------------------------------------------------------------------------------
@@ -39,23 +50,35 @@
 	// If execution reaches here, it is the boot core.

 	// Initialize DRAM.
-	ADR_REL	x0, __bss_start
-	ADR_REL x1, __bss_end_exclusive
+	ADR_ABS	x0, __bss_start
+	ADR_ABS x1, __bss_end_exclusive

 .L_bss_init_loop:
 	cmp	x0, x1
-	b.eq	.L_prepare_rust
+	b.eq	.L_relocate_binary
 	stp	xzr, xzr, [x0], #16
 	b	.L_bss_init_loop

+	// Next, relocate the binary.
+.L_relocate_binary:
+	ADR_REL	x0, __binary_nonzero_start         // The address the binary got loaded to.
+	ADR_ABS	x1, __binary_nonzero_start         // The address the binary was linked to.
+	ADR_ABS	x2, __binary_nonzero_end_exclusive
+
+.L_copy_loop:
+	ldr	x3, [x0], #8
+	str	x3, [x1], #8
+	cmp	x1, x2
+	b.lo	.L_copy_loop
+
 	// Prepare the jump to Rust code.
-.L_prepare_rust:
 	// Set the stack pointer.
-	ADR_REL	x0, __boot_core_stack_end_exclusive
+	ADR_ABS	x0, __boot_core_stack_end_exclusive
 	mov	sp, x0

-	// Jump to Rust code.
-	b	_start_rust
+	// Jump to the relocated Rust code.
+	ADR_ABS	x1, _start_rust
+	br	x1

 	// Infinitely wait for events (aka "park the core").
 .L_parking_loop:

diff -uNr 05_drivers_gpio_uart/src/bsp/device_driver/bcm/bcm2xxx_gpio.rs 06_uart_chainloader/src/bsp/device_driver/bcm/bcm2xxx_gpio.rs
--- 05_drivers_gpio_uart/src/bsp/device_driver/bcm/bcm2xxx_gpio.rs
+++ 06_uart_chainloader/src/bsp/device_driver/bcm/bcm2xxx_gpio.rs
@@ -148,7 +148,7 @@
         // Make an educated guess for a good delay value (Sequence described in the BCM2837
         // peripherals PDF).
         //
-        // - According to Wikipedia, the fastest Pi3 clocks around 1.4 GHz.
+        // - According to Wikipedia, the fastest RPi4 clocks around 1.5 GHz.
         // - The Linux 2837 GPIO driver waits 1 µs between the steps.
         //
         // So lets try to be on the safe side and default to 2000 cycles, which would equal 1 µs

diff -uNr 05_drivers_gpio_uart/src/bsp/device_driver/bcm/bcm2xxx_pl011_uart.rs 06_uart_chainloader/src/bsp/device_driver/bcm/bcm2xxx_pl011_uart.rs
--- 05_drivers_gpio_uart/src/bsp/device_driver/bcm/bcm2xxx_pl011_uart.rs
+++ 06_uart_chainloader/src/bsp/device_driver/bcm/bcm2xxx_pl011_uart.rs
@@ -278,7 +278,7 @@
     }

     /// Retrieve a character.
-    fn read_char_converting(&mut self, blocking_mode: BlockingMode) -> Option<char> {
+    fn read_char(&mut self, blocking_mode: BlockingMode) -> Option<char> {
         // If RX FIFO is empty,
         if self.registers.FR.matches_all(FR::RXFE::SET) {
             // immediately return in non-blocking mode.
@@ -293,12 +293,7 @@
         }

         // Read one character.
-        let mut ret = self.registers.DR.get() as u8 as char;
-
-        // Convert carrige return to newline.
-        if ret == '\r' {
-            ret = '\n'
-        }
+        let ret = self.registers.DR.get() as u8 as char;

         // Update statistics.
         self.chars_read += 1;
@@ -378,14 +373,14 @@
 impl console::interface::Read for PL011Uart {
     fn read_char(&self) -> char {
         self.inner
-            .lock(|inner| inner.read_char_converting(BlockingMode::Blocking).unwrap())
+            .lock(|inner| inner.read_char(BlockingMode::Blocking).unwrap())
     }

     fn clear_rx(&self) {
         // Read from the RX FIFO until it is indicating empty.
         while self
             .inner
-            .lock(|inner| inner.read_char_converting(BlockingMode::NonBlocking))
+            .lock(|inner| inner.read_char(BlockingMode::NonBlocking))
             .is_some()
         {}
     }

diff -uNr 05_drivers_gpio_uart/src/bsp/raspberrypi/link.ld 06_uart_chainloader/src/bsp/raspberrypi/link.ld
--- 05_drivers_gpio_uart/src/bsp/raspberrypi/link.ld
+++ 06_uart_chainloader/src/bsp/raspberrypi/link.ld
@@ -3,8 +3,6 @@
  * Copyright (c) 2018-2021 Andre Richter <andre.o.richter@gmail.com>
  */

-__rpi_phys_dram_start_addr = 0;
-
 /* The physical address at which the the kernel binary will be loaded by the Raspberry's firmware */
 __rpi_phys_binary_load_addr = 0x80000;

@@ -28,7 +26,8 @@

 SECTIONS
 {
-    . =  __rpi_phys_dram_start_addr;
+    /* Set the link address to 32 MiB */
+    . = 0x2000000;

     /***********************************************************************************************
     * Boot Core Stack
@@ -45,6 +44,7 @@
     /***********************************************************************************************
     * Code + RO Data + Global Offset Table
     ***********************************************************************************************/
+    __binary_nonzero_start = .;
     .text :
     {
         KEEP(*(.text._start))
@@ -61,6 +61,10 @@
     ***********************************************************************************************/
     .data : { *(.data*) } :segment_data

+    /* Fill up to 8 byte, b/c relocating the binary is done in u64 chunks */
+    . = ALIGN(8);
+    __binary_nonzero_end_exclusive = .;
+
     /* Section is zeroed in pairs of u64. Align start and end to 16 bytes */
     .bss (NOLOAD) : ALIGN(16)
     {

diff -uNr 05_drivers_gpio_uart/src/bsp/raspberrypi/memory.rs 06_uart_chainloader/src/bsp/raspberrypi/memory.rs
--- 05_drivers_gpio_uart/src/bsp/raspberrypi/memory.rs
+++ 06_uart_chainloader/src/bsp/raspberrypi/memory.rs
@@ -11,9 +11,10 @@
 /// The board's physical memory map.
 #[rustfmt::skip]
 pub(super) mod map {
+    pub const BOARD_DEFAULT_LOAD_ADDRESS: usize =        0x8_0000;

-    pub const GPIO_OFFSET:         usize = 0x0020_0000;
-    pub const UART_OFFSET:         usize = 0x0020_1000;
+    pub const GPIO_OFFSET:                usize =        0x0020_0000;
+    pub const UART_OFFSET:                usize =        0x0020_1000;

     /// Physical devices.
     #[cfg(feature = "bsp_rpi3")]
@@ -35,3 +36,13 @@
         pub const PL011_UART_START: usize = START + UART_OFFSET;
     }
 }
+
+//--------------------------------------------------------------------------------------------------
+// Public Code
+//--------------------------------------------------------------------------------------------------
+
+/// The address on which the Raspberry firmware loads every binary by default.
+#[inline(always)]
+pub fn board_default_load_addr() -> *const u64 {
+    map::BOARD_DEFAULT_LOAD_ADDRESS as _
+}

diff -uNr 05_drivers_gpio_uart/src/main.rs 06_uart_chainloader/src/main.rs
--- 05_drivers_gpio_uart/src/main.rs
+++ 06_uart_chainloader/src/main.rs
@@ -141,38 +141,56 @@
     kernel_main()
 }

+const MINILOAD_LOGO: &str = r#"
+ __  __ _      _ _                 _
+|  \/  (_)_ _ (_) |   ___  __ _ __| |
+| |\/| | | ' \| | |__/ _ \/ _` / _` |
+|_|  |_|_|_||_|_|____\___/\__,_\__,_|
+"#;
+
 /// The main function running after the early init.
 fn kernel_main() -> ! {
     use bsp::console::console;
     use console::interface::All;
-    use driver::interface::DriverManager;

-    println!(
-        "[0] {} version {}",
-        env!("CARGO_PKG_NAME"),
-        env!("CARGO_PKG_VERSION")
-    );
-    println!("[1] Booting on: {}", bsp::board_name());
-
-    println!("[2] Drivers loaded:");
-    for (i, driver) in bsp::driver::driver_manager()
-        .all_device_drivers()
-        .iter()
-        .enumerate()
-    {
-        println!("      {}. {}", i + 1, driver.compatible());
+    println!("{}", MINILOAD_LOGO);
+    println!("{:^37}", bsp::board_name());
+    println!();
+    println!("[ML] Requesting binary");
+    console().flush();
+
+    // Discard any spurious received characters before starting with the loader protocol.
+    console().clear_rx();
+
+    // Notify `Minipush` to send the binary.
+    for _ in 0..3 {
+        console().write_char(3 as char);
     }

-    println!(
-        "[3] Chars written: {}",
-        bsp::console::console().chars_written()
-    );
-    println!("[4] Echoing input now");
+    // Read the binary's size.
+    let mut size: u32 = u32::from(console().read_char() as u8);
+    size |= u32::from(console().read_char() as u8) << 8;
+    size |= u32::from(console().read_char() as u8) << 16;
+    size |= u32::from(console().read_char() as u8) << 24;

-    // Discard any spurious received characters before going into echo mode.
-    console().clear_rx();
-    loop {
-        let c = bsp::console::console().read_char();
-        bsp::console::console().write_char(c);
+    // Trust it's not too big.
+    console().write_char('O');
+    console().write_char('K');
+
+    let kernel_addr: *mut u8 = bsp::memory::board_default_load_addr() as *mut u8;
+    unsafe {
+        // Read the kernel byte by byte.
+        for i in 0..size {
+            core::ptr::write_volatile(kernel_addr.offset(i as isize), console().read_char() as u8)
+        }
     }
+
+    println!("[ML] Loaded! Executing the payload now\n");
+    console().flush();
+
+    // Use black magic to create a function pointer.
+    let kernel: fn() -> ! = unsafe { core::mem::transmute(kernel_addr) };
+
+    // Jump to loaded kernel!
+    kernel()
 }

diff -uNr 05_drivers_gpio_uart/tests/boot_test_string.rb 06_uart_chainloader/tests/boot_test_string.rb
--- 05_drivers_gpio_uart/tests/boot_test_string.rb
+++ 06_uart_chainloader/tests/boot_test_string.rb
@@ -1,3 +0,0 @@
-# frozen_string_literal: true
-
-EXPECTED_PRINT = 'Echoing input now'

diff -uNr 05_drivers_gpio_uart/tests/chainboot_test.rb 06_uart_chainloader/tests/chainboot_test.rb
--- 05_drivers_gpio_uart/tests/chainboot_test.rb
+++ 06_uart_chainloader/tests/chainboot_test.rb
@@ -0,0 +1,80 @@
+# frozen_string_literal: true
+
+# SPDX-License-Identifier: MIT OR Apache-2.0
+#
+# Copyright (c) 2020-2021 Andre Richter <andre.o.richter@gmail.com>
+
+require_relative '../../common/serial/minipush'
+require_relative '../../common/tests/boot_test'
+require 'pty'
+
+# Match for the last print that 'demo_payload_rpiX.img' produces.
+EXPECTED_PRINT = 'Echoing input now'
+
+# Extend BootTest so that it listens on the output of a MiniPush instance, which is itself connected
+# to a QEMU instance instead of a real HW.
+class ChainbootTest < BootTest
+    MINIPUSH = '../common/serial/minipush.rb'
+    MINIPUSH_POWER_TARGET_REQUEST = 'Please power the target now'
+
+    def initialize(qemu_cmd, payload_path)
+        super(qemu_cmd, EXPECTED_PRINT)
+
+        @test_name = 'Boot test using Minipush'
+
+        @payload_path = payload_path
+    end
+
+    private
+
+    # override
+    def post_process_and_add_output(output)
+        temp = output.join.split("\r\n")
+
+        # Should a line have solo carriage returns, remove any overridden parts of the string.
+        temp.map! { |x| x.gsub(/.*\r/, '') }
+
+        @test_output += temp
+    end
+
+    def wait_for_minipush_power_request(mp_out)
+        output = []
+        Timeout.timeout(MAX_WAIT_SECS) do
+            loop do
+                output << mp_out.gets
+                break if output.last.include?(MINIPUSH_POWER_TARGET_REQUEST)
+            end
+        end
+    rescue Timeout::Error
+        @test_error = 'Timed out waiting for power request'
+    rescue StandardError => e
+        @test_error = e.message
+    ensure
+        post_process_and_add_output(output)
+    end
+
+    # override
+    def setup
+        pty_main, pty_secondary = PTY.open
+        mp_out, _mp_in = PTY.spawn("ruby #{MINIPUSH} #{pty_secondary.path} #{@payload_path}")
+
+        # Wait until MiniPush asks for powering the target.
+        wait_for_minipush_power_request(mp_out)
+
+        # Now is the time to start QEMU with the chainloader binary. QEMU's virtual tty is connected
+        # to the MiniPush instance spawned above, so that the two processes talk to each other.
+        Process.spawn(@qemu_cmd, in: pty_main, out: pty_main)
+
+        # The remainder of the test is done by the parent class' run_concrete_test, which listens on
+        # @qemu_serial. Hence, point it to MiniPush's output.
+        @qemu_serial = mp_out
+    end
+end
+
+##--------------------------------------------------------------------------------------------------
+## Execution starts here
+##--------------------------------------------------------------------------------------------------
+payload_path = ARGV.pop
+qemu_cmd = ARGV.join(' ')
+
+ChainbootTest.new(qemu_cmd, payload_path).run

diff -uNr 05_drivers_gpio_uart/update.sh 06_uart_chainloader/update.sh
--- 05_drivers_gpio_uart/update.sh
+++ 06_uart_chainloader/update.sh
@@ -0,0 +1,8 @@
+#!/usr/bin/env bash
+
+cd ../05_drivers_gpio_uart
+BSP=rpi4 make
+cp kernel8.img ../06_uart_chainloader/demo_payload_rpi4.img
+make
+cp kernel8.img ../06_uart_chainloader/demo_payload_rpi3.img
+rm kernel8.img