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8a5818535b
* Export invalidFmtErr To allow consistent use of "invalid format string" compile error response for badly formatted format strings. See https://github.com/ziglang/zig/pull/13489#issuecomment-1311759340. * Replace format compile errors with invalidFmtErr - Provides more consistent compile errors. - Gives user info about the type of the badly formated value. * Rename invalidFmtErr as invalidFmtError For consistency. Zig seems to use “Error” more often than “Err”. * std: add invalid format string checks to remaining custom formatters * pass reference-trace to comp when building build file; fix checkobjectstep
158 lines
4.5 KiB
Zig
158 lines
4.5 KiB
Zig
const std = @import("../std.zig");
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/// A protocol is an interface identified by a GUID.
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pub const protocols = @import("uefi/protocols.zig");
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/// Status codes returned by EFI interfaces
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pub const Status = @import("uefi/status.zig").Status;
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pub const tables = @import("uefi/tables.zig");
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/// The memory type to allocate when using the pool
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/// Defaults to .LoaderData, the default data allocation type
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/// used by UEFI applications to allocate pool memory.
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pub var efi_pool_memory_type: tables.MemoryType = .LoaderData;
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pub const pool_allocator = @import("uefi/pool_allocator.zig").pool_allocator;
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pub const raw_pool_allocator = @import("uefi/pool_allocator.zig").raw_pool_allocator;
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/// The EFI image's handle that is passed to its entry point.
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pub var handle: Handle = undefined;
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/// A pointer to the EFI System Table that is passed to the EFI image's entry point.
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pub var system_table: *tables.SystemTable = undefined;
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/// A handle to an event structure.
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pub const Event = *opaque {};
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pub const MacAddress = extern struct {
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address: [32]u8,
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};
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pub const Ipv4Address = extern struct {
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address: [4]u8,
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};
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pub const Ipv6Address = extern struct {
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address: [16]u8,
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};
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/// GUIDs are align(8) unless otherwise specified.
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pub const Guid = extern struct {
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time_low: u32,
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time_mid: u16,
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time_high_and_version: u16,
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clock_seq_high_and_reserved: u8,
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clock_seq_low: u8,
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node: [6]u8,
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/// Format GUID into hexadecimal lowercase xxxxxxxx-xxxx-xxxx-xxxx-xxxxxxxxxxxx format
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pub fn format(
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self: @This(),
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comptime f: []const u8,
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options: std.fmt.FormatOptions,
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writer: anytype,
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) !void {
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_ = options;
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if (f.len == 0) {
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const fmt = std.fmt.fmtSliceHexLower;
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const time_low = @byteSwap(self.time_low);
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const time_mid = @byteSwap(self.time_mid);
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const time_high_and_version = @byteSwap(self.time_high_and_version);
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return std.fmt.format(writer, "{:0>8}-{:0>4}-{:0>4}-{:0>2}{:0>2}-{:0>12}", .{
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fmt(std.mem.asBytes(&time_low)),
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fmt(std.mem.asBytes(&time_mid)),
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fmt(std.mem.asBytes(&time_high_and_version)),
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fmt(std.mem.asBytes(&self.clock_seq_high_and_reserved)),
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fmt(std.mem.asBytes(&self.clock_seq_low)),
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fmt(std.mem.asBytes(&self.node)),
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});
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} else {
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std.fmt.invalidFmtError(f, self);
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}
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}
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pub fn eql(a: std.os.uefi.Guid, b: std.os.uefi.Guid) bool {
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return a.time_low == b.time_low and
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a.time_mid == b.time_mid and
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a.time_high_and_version == b.time_high_and_version and
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a.clock_seq_high_and_reserved == b.clock_seq_high_and_reserved and
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a.clock_seq_low == b.clock_seq_low and
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std.mem.eql(u8, &a.node, &b.node);
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}
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};
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/// An EFI Handle represents a collection of related interfaces.
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pub const Handle = *opaque {};
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/// This structure represents time information.
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pub const Time = extern struct {
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/// 1900 - 9999
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year: u16,
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/// 1 - 12
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month: u8,
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/// 1 - 31
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day: u8,
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/// 0 - 23
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hour: u8,
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/// 0 - 59
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minute: u8,
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/// 0 - 59
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second: u8,
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/// 0 - 999999999
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nanosecond: u32,
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/// The time's offset in minutes from UTC.
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/// Allowed values are -1440 to 1440 or unspecified_timezone
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timezone: i16,
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daylight: packed struct {
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_pad1: u6,
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/// If true, the time has been adjusted for daylight savings time.
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in_daylight: bool,
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/// If true, the time is affected by daylight savings time.
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adjust_daylight: bool,
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},
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/// Time is to be interpreted as local time
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pub const unspecified_timezone: i16 = 0x7ff;
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};
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/// Capabilities of the clock device
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pub const TimeCapabilities = extern struct {
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/// Resolution in Hz
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resolution: u32,
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/// Accuracy in an error rate of 1e-6 parts per million.
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accuracy: u32,
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/// If true, a time set operation clears the device's time below the resolution level.
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sets_to_zero: bool,
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};
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/// File Handle as specified in the EFI Shell Spec
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pub const FileHandle = *opaque {};
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test "GUID formatting" {
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var bytes = [_]u8{ 137, 60, 203, 50, 128, 128, 124, 66, 186, 19, 80, 73, 135, 59, 194, 135 };
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var guid = @bitCast(Guid, bytes);
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var str = try std.fmt.allocPrint(std.testing.allocator, "{}", .{guid});
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defer std.testing.allocator.free(str);
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try std.testing.expect(std.mem.eql(u8, str, "32cb3c89-8080-427c-ba13-5049873bc287"));
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}
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test {
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_ = tables;
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_ = protocols;
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}
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