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G MicroZig Design

Dependency Tree

The build portion of MicroZig sets up a dependency graph like the following.

Your application lives in app; that's where main() resides. root contains the entry point and will set up [zero-initialized data] and [uninitialized data]. This is all encapsulated in an EmbeddedExecutable object. It has methods to add dependencies acquired from the package manager.

The microzig module has different namespaces, some are static, but the nodes you see in the diagram above are switched out according to your configured hardware.

Configurable Modules under microzig

The configurable modules, with the exception of config, are able to import microzig. This exists so that one module may access another through microzig. This allows us to have patterns like the hal grabbing the frequency of an external crystal oscillator from board. Information stays where it's relevant. Circular dependencies of declarations will result in a compile error.

cpu

This module models your specific CPU and is important for initializing memory. Generally, you shouldn't need to define this yourself, it's likely that MicroZig will have the definition for you.

Further research is needed for SOCs with multiple, heterogeneous CPUs. Likely it means patching together multiple EmbeddedExecutables.

chip

This module is intended for generated code from (Regz)[https://github.com/ZigEmbeddedGroup/microzig/tree/main/tools/regz]. You can hand write this code if you like, but needs to be structured as follows:

pub const types = struct {
    // type definitions for peripherals here
};

pub const devices = struct {
    pub const chip_name = struct {
        // peripherals and interrupt table here ...
    };
};

This code generation has a devices namespace where your specific hardware will reside. When defining a Chip, which is ultimately used in the creation of an EmbeddedExecutable, the name must exactly match the name under the devices namespace. It's okay if the name has white space, for that we can use @"" notation.

Let's say we had a device with the name STM32F103. We'd define our chip as:

pub const stm32f103 = microzig.Chip{
    .name = "STM32F103",
    .cpu = microzig.cpus.cortex_m3,
    .source = .{
        .path = "path/to/generated.zig",
    },
    .json_register_schema = .{
        .path = "path/to/generated.json",
    },
    .hal = .{
        .path = "path/to/hal.zig",
    },
    .memory_regions = &.{
        MemoryRegion{ .offset = 0x08000000, .length = 64 * 1024, .kind = .flash },
        MemoryRegion{ .offset = 0x20000000, .length = 20 * 1024, .kind = .ram },
    },
};

As discussed, the name must match a namespace under devices in the chip source.

hal

This module contains hand-written code for interacting with the chip.

TODO

board

TODO

config

TODO

Static Namespaces under microzig

TODO

Linkerscript Generation

TODO

JSON register schema

TODO

Interrupts

TODO