zig-gpio/gpio.zig

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2023-12-12 03:20:44 +00:00
const std = @import("std");
const gpio = @import("index.zig");
/// Opens the file at path and uses the file descriptor to get the gpiochip.
pub fn getChip(path: []const u8) !Chip {
var fl = try std.fs.openFileAbsolute(path, .{});
return try getChipByFd(fl.handle);
}
/// Same as `getChip` but the `path` parameter is null-terminated.
pub fn getChipZ(path: [*:0]const u8) !Chip {
var fl = try std.fs.openFileAbsoluteZ(path, .{});
return try getChipByFd(fl.handle);
}
/// Returns a `chip` with the given file descriptor.
pub fn getChipByFd(fd: std.os.fd_t) !Chip {
var info = try gpio.uapi.getChipInfo(fd);
return Chip{
.name = info.name,
.label = info.label,
.handle = fd,
.lines = info.lines,
};
}
/// Represents a single Linux `gpiochip` character device.
pub const Chip = struct {
/// The name of the `gpiochip` device.
name: [gpio.uapi.MAX_NAME_SIZE]u8,
/// The label of the `gpiochip` device
label: [gpio.uapi.MAX_NAME_SIZE]u8,
/// An optional consumer value to use when requesting lines.
/// Can be set using `set_consumer` or `set_consumer_z`.
/// If it isn't set, "zig-gpio" will be used instead.
consumer: ?[gpio.uapi.MAX_NAME_SIZE]u8 = null,
/// The file descriptor of the `gpiochip` device.
handle: std.os.fd_t,
// The amount of lines available under this device.
lines: u32,
closed: bool = false,
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/// Returns the chip's name as a slice without any null characters
pub fn nameSlice(self: *Chip) []const u8 {
return std.mem.sliceTo(&self.name, 0);
}
/// Returns the chip's label as a slice without any null characters
pub fn labelSlice(self: *Chip) []const u8 {
return std.mem.sliceTo(&self.label, 0);
}
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/// Sets the chip's consumer value to `consumer`.
pub fn setConsumer(self: *Chip, consumer: []const u8) !void {
if (consumer.len > gpio.uapi.MAX_NAME_SIZE) return error.ConsumerTooLong;
self.consumer = std.mem.zeroes([gpio.uapi.MAX_NAME_SIZE]u8);
std.mem.copyForwards(u8, &self.consumer.?, consumer);
}
/// Same as setConsumer but the `consumer` parameter is null-terminated.
pub fn setConsumerZ(self: *Chip, consumer: [*:0]const u8) !void {
self.consumer = std.mem.zeroes([gpio.uapi.MAX_NAME_SIZE]u8);
@memcpy(&self.consumer.?, consumer);
}
/// Returns information about the GPIO line at the given `offset`.
pub fn getLineInfo(self: Chip, offset: u32) !gpio.uapi.LineInfo {
if (self.closed) return error.ChipClosed;
return gpio.uapi.getLineInfo(self.handle, offset);
}
/// Requests and returns a single line at the given `offset`, from the given `chip`.
pub fn requestLine(self: Chip, offset: u32, flags: gpio.uapi.LineFlags) !Line {
var l = try self.requestLines(&.{offset}, flags);
return Line{ .lines = l };
}
/// Requests control of a collection of lines on the chip. If granted, control is maintained until
/// the `lines` are closed.
pub fn requestLines(self: Chip, offsets: []const u32, flags: gpio.uapi.LineFlags) !Lines {
if (self.closed) return error.ChipClosed;
if (offsets.len > gpio.uapi.MAX_LINES) return error.TooManyLines;
var lr = std.mem.zeroes(gpio.uapi.LineRequest);
lr.num_lines = @truncate(offsets.len);
lr.config.flags = flags;
if (self.consumer != null) {
lr.consumer = self.consumer.?;
} else {
std.mem.copyForwards(u8, &lr.consumer, "zig-gpio");
}
for (0.., offsets) |i, offset| {
if (offset >= self.lines) return error.OffsetOutOfRange;
lr.offsets[i] = offset;
}
const line_fd = try gpio.uapi.getLine(self.handle, lr);
return Lines{
.handle = line_fd,
.num_lines = lr.num_lines,
.offsets = offsets,
};
}
/// Releases all resources held by the `chip`.
pub fn close(self: *Chip) void {
if (self.closed) return;
self.closed = true;
std.os.close(self.handle);
}
};
/// Represents a collection of lines requested from a `chip`.
pub const Lines = struct {
/// The file descriptor of the lines.
handle: std.os.fd_t,
/// The amount of lines being controlled.
num_lines: u32,
/// The offsets of the lines being controlled.
offsets: []const u32,
closed: bool = false,
/// Sets the lines at the given indices as high (on).
///
/// Note that this function takes indices and not offsets.
/// The indices correspond to the index of the offset in your request.
/// For example, if you requested `&.{22, 20, 23}`,
/// `22` will correspond to `0`, `20` will correspond to `1`,
/// and `23` will correspond to `2`.
pub fn setHigh(self: Lines, indices: []const u32) !void {
if (self.closed) return error.LineClosed;
var vals = gpio.uapi.LineValues{};
for (indices) |index| {
if (index >= self.num_lines) return error.IndexOutOfRange;
vals.bits.set(index);
vals.mask.set(index);
}
try gpio.uapi.setLineValues(self.handle, vals);
}
/// Sets the lines at the given indices as low (off).
///
/// Note that this function takes indices and not offsets.
/// The indices correspond to the index of the offset in your request.
/// For example, if you requested `&.{22, 20, 23}`,
/// `22` will correspond to `0`, `20` will correspond to `1`,
/// and `23` will correspond to `2`.
pub fn setLow(self: Lines, indices: []const u32) !void {
if (self.closed) return error.LineClosed;
var vals = gpio.uapi.LineValues{};
for (indices) |index| {
if (index >= self.num_lines) return error.IndexOutOfRange;
vals.mask.set(index);
}
try gpio.uapi.setLineValues(self.handle, vals);
}
/// Sets the configuration flags of the lines at the given indices.
///
/// Note that this function takes indices and not offsets.
/// The indices correspond to the index of the offset in your request.
/// For example, if you requested `&.{22, 20, 23}`,
/// `22` will correspond to `0`, `20` will correspond to `1`,
/// and `23` will correspond to `2`.
pub fn reconfigure(self: Lines, indices: []const u32, flags: gpio.uapi.LineFlags) !void {
var lc = std.mem.zeroes(gpio.uapi.LineConfig);
lc.attrs[0] = gpio.uapi.LineConfigAttribute{
.attr = .{
.id = .Flags,
.data = .{ .flags = flags },
},
};
for (indices) |index| {
if (index >= self.num_lines) return error.IndexOutOfRange;
lc.attrs[0].mask.set(index);
}
try gpio.uapi.setLineConfig(self.handle, lc);
}
/// Sets the debounce period of the lines at the given indices.
///
/// Note that this function takes indices and not offsets.
/// The indices correspond to the index of the offset in your request.
/// For example, if you requested `&.{22, 20, 23}`,
/// `22` will correspond to `0`, `20` will correspond to `1`,
/// and `23` will correspond to `2`.
pub fn setDebouncePeriod(self: Lines, indices: []const u32, duration_us: u32) !void {
var lc = std.mem.zeroes(gpio.uapi.LineConfig);
lc.attrs[0] = gpio.uapi.LineConfigAttribute{
.attr = .{
.id = .Debounce,
.data = .{ .debounce_period_us = duration_us },
},
};
for (indices) |index| {
if (index >= self.num_lines) return error.IndexOutOfRange;
lc.attrs[0].mask.set(index);
}
try gpio.uapi.setLineConfig(self.handle, lc);
}
/// Returns the values of all the controlled lines as a bitset.
pub fn getValues(self: Lines) !gpio.uapi.LineValueBitset {
if (self.closed) return error.LineClosed;
const vals = try gpio.uapi.getLineValues(self.handle);
return vals.bits;
}
/// Releases all the resources held by the requested `lines`.
pub fn close(self: *Lines) void {
if (self.closed) return;
self.closed = true;
std.os.close(self.handle);
}
};
/// Represents a single line requested from a `chip`.
pub const Line = struct {
/// The `Lines` value containing the line.
lines: Lines,
/// Sets the line as high (on).
pub fn setHigh(self: Line) !void {
try self.lines.setHigh(&.{0});
}
/// Sets the line as low (off).
pub fn setLow(self: Line) !void {
try self.lines.setLow(&.{0});
}
/// Sets the configuration flags of the line.
pub fn reconfigure(self: Line, flags: gpio.uapi.LineFlags) !void {
try self.lines.reconfigure(&.{0}, flags);
}
/// Sets the debounce period of the line.
pub fn setDebouncePeriod(self: Line, duration_us: u32) !void {
try self.lines.setDebouncePeriod(&.{0}, duration_us);
}
/// Gets the current value of the line as a boolean.
pub fn getValue(self: Line) !bool {
const vals = try self.lines.getValues();
return vals.isSet(0);
}
/// Releases all the resources held by the `line`.
pub fn close(self: *Line) void {
self.lines.close();
}
};