misc: init typos for spell checking

This commit is contained in:
Philipp Schuster 2024-04-04 10:09:53 +02:00
parent 95a48ebbfc
commit b715948575
11 changed files with 36 additions and 14 deletions

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@ -14,5 +14,5 @@ max_line_length = 80
[{Makefile,GNUmakefile*}] [{Makefile,GNUmakefile*}]
indent_style = tab indent_style = tab
[{*.nix,*.yml}] [{*.nix,*.toml,*.yml}]
indent_size = 2 indent_size = 2

22
.typos.toml Normal file
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@ -0,0 +1,22 @@
# Configuration for https://github.com/crate-ci/typos
[files]
extend-exclude = [
# Typos already uses .gitignore. These excludes are additional:
]
[default.extend-words]
hda = "hda"
Nd = "Nd"
sie = "sie"
SIE = "SIE"
ist = "ist"
rela = "rela"
RELA = "RELA"
guid = "guid"
GUID = "GUID"
pn = "pn"
hd = "hd"
htpt = "htpt"
[default.extend-identifiers]

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@ -78,7 +78,7 @@
Bug fixes: Bug fixes:
- multiboot2 protocol: Do not panic if there is a ENTRY_ADDRESS_EFI64 - multiboot2 protocol: Do not panic if there is a ENTRY_ADDRESS_EFI64
tag, but there is a valid alternatve entry point. This further aligns tag, but there is a valid alternative entry point. This further aligns
our behaviour with GRUB2. our behaviour with GRUB2.
Miscellaneous: Miscellaneous:
@ -128,7 +128,7 @@
Bug fixes: Bug fixes:
- Minor fix of newline handling when reading user input lines. - Minor fix of newline handling when reading user input lines.
Miscellanous: Miscellaneous:
- Bump major version to 7. Note: There is no breaking change in 7.x - Bump major version to 7. Note: There is no breaking change in 7.x
compared to 6.x; the major version bump is done due to a change in compared to 6.x; the major version bump is done due to a change in
the versioning scheme used by Limine (move to proper Semantic the versioning scheme used by Limine (move to proper Semantic

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@ -34,7 +34,7 @@ void *acpi_get_rsdp(void) {
return NULL; return NULL;
} }
/// Returns the RSDP v1 pointer if avaliable or else NULL. /// Returns the RSDP v1 pointer if available or else NULL.
void *acpi_get_rsdp_v1(void) { void *acpi_get_rsdp_v1(void) {
// In BIOS according to the ACPI spec (see ACPI 6.2 section // In BIOS according to the ACPI spec (see ACPI 6.2 section
// 5.2.5.1 'Finding the RSDP on IA-PC Systems') it either contains // 5.2.5.1 'Finding the RSDP on IA-PC Systems') it either contains
@ -120,7 +120,7 @@ void *acpi_get_rsdp(void) {
return rsdp; return rsdp;
} }
/// Returns the RSDP v1 pointer if avaliable or else NULL. /// Returns the RSDP v1 pointer if available or else NULL.
void *acpi_get_rsdp_v1(void) { void *acpi_get_rsdp_v1(void) {
// To maintain GRUB compatibility we will need to probe for the RSDP // To maintain GRUB compatibility we will need to probe for the RSDP
// again since UEFI can contain both XSDP and RSDP (see ACPI 6.2 section // again since UEFI can contain both XSDP and RSDP (see ACPI 6.2 section
@ -188,7 +188,7 @@ void acpi_get_smbios(void **smbios32, void **smbios64) {
#endif #endif
/// Returns the RSDP v2 pointer if avaliable or else NULL. /// Returns the RSDP v2 pointer if available or else NULL.
void *acpi_get_rsdp_v2(void) { void *acpi_get_rsdp_v2(void) {
// Since the acpi_get_rsdp function already looks for the XSDP we can // Since the acpi_get_rsdp function already looks for the XSDP we can
// just check if it has the correct revision and return the pointer :^) // just check if it has the correct revision and return the pointer :^)

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@ -14,7 +14,7 @@
#include <crypt/blake2b.h> #include <crypt/blake2b.h>
// A URI takes the form of: resource://root/path#hash // A URI takes the form of: resource://root/path#hash
// The following function splits up a URI into its componenets // The following function splits up a URI into its components
bool uri_resolve(char *uri, char **resource, char **root, char **path, char **hash) { bool uri_resolve(char *uri, char **resource, char **root, char **path, char **hash) {
size_t length = strlen(uri) + 1; size_t length = strlen(uri) + 1;
char *buf = ext_mem_alloc(length); char *buf = ext_mem_alloc(length);

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@ -96,7 +96,7 @@ level4:
pml3 = get_next_level(pagemap, pml4, virt_addr, pg_size, 3, pml4_entry); pml3 = get_next_level(pagemap, pml4, virt_addr, pg_size, 3, pml4_entry);
if (pg_size == Size1GiB) { if (pg_size == Size1GiB) {
// Check if 1GiB pages are avaliable. // Check if 1GiB pages are available.
if (is_1gib_page_supported()) { if (is_1gib_page_supported()) {
pml3[pml3_entry] = (pt_entry_t)(phys_addr | flags | PT_FLAG_LARGE); pml3[pml3_entry] = (pt_entry_t)(phys_addr | flags | PT_FLAG_LARGE);
} else { } else {

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@ -743,7 +743,7 @@ skip_modeset:;
// NOTE: The multiboot2 specification does not say anything about if both // NOTE: The multiboot2 specification does not say anything about if both
// smbios 32 and 64 bit entry points are present, then we pass both of them + smbios // smbios 32 and 64 bit entry points are present, then we pass both of them + smbios
// support for grub2 is unimplemented. So, we are going to assume they expect us to // support for grub2 is unimplemented. So, we are going to assume they expect us to
// pass both of them if avaliable. Oh well... // pass both of them if available. Oh well...
if (smbios_entry_32 != NULL) { if (smbios_entry_32 != NULL) {
struct multiboot_tag_smbios *tag = (struct multiboot_tag_smbios *)(mb2_info + info_idx); struct multiboot_tag_smbios *tag = (struct multiboot_tag_smbios *)(mb2_info + info_idx);

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@ -39,7 +39,7 @@
nasm nasm
pkg-config # Checked for by ./configure but seems unused? pkg-config # Checked for by ./configure but seems unused?
# gcc toolchain (comes as default, here only for completness) # gcc toolchain (comes as default, here only for completeness)
binutils binutils
gcc gcc
gnumake gnumake

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@ -7,7 +7,7 @@
# stable release. Further, unlike the nixpkgs derivation, this derivation runs # stable release. Further, unlike the nixpkgs derivation, this derivation runs
# the ./bootstrap step which needs network access. Due to the nature of the # the ./bootstrap step which needs network access. Due to the nature of the
# self-hacked Git submodules download approach, packaging this project in Nix # self-hacked Git submodules download approach, packaging this project in Nix
# is especailly complicated. The complicated multi-derivation approach below # is especially complicated. The complicated multi-derivation approach below
# is the best I can get after multiple hours of trying. :). # is the best I can get after multiple hours of trying. :).
{ {
@ -84,7 +84,7 @@ let
# derivation in a non-deterministic way. # derivation in a non-deterministic way.
fd -u --type=d "^.git$" --min-depth=2 . --exec rm -rf {} fd -u --type=d "^.git$" --min-depth=2 . --exec rm -rf {}
# This should report nothing. Othewise, the Nix build will fail. # This should report nothing. Otherwise, the Nix build will fail.
# grep -r /nix/store . # grep -r /nix/store .
runHook postBuild runHook postBuild

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@ -42,7 +42,7 @@ void multiboot_main(uint32_t magic, struct multiboot1_info *info) {
// For now we only print the usable memory map entries since // For now we only print the usable memory map entries since
// printing the whole memory map blows my terminal up. We also // printing the whole memory map blows my terminal up. We also
// iterate through the avaliable memory map entries and add up // iterate through the available memory map entries and add up
// to find the total amount of usable memory. // to find the total amount of usable memory.
for (struct multiboot1_mmap_entry* entry = start; entry < end; entry++) { for (struct multiboot1_mmap_entry* entry = start; entry < end; entry++) {
// Check if the memory map entry is marked as usable! // Check if the memory map entry is marked as usable!

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@ -92,7 +92,7 @@ void multiboot2_main(uint32_t magic, struct multiboot_info* mb_info_addr) {
// For now we only print the usable memory map entries since // For now we only print the usable memory map entries since
// printing the whole memory map blows my terminal up. We also // printing the whole memory map blows my terminal up. We also
// iterate through the avaliable memory map entries and add up // iterate through the available memory map entries and add up
// to find the total amount of usable memory. // to find the total amount of usable memory.
for (size_t i = 0; i < entry_count; i++) { for (size_t i = 0; i < entry_count; i++) {
e9_printf("\t\t\t addr=%x", m[i].addr); e9_printf("\t\t\t addr=%x", m[i].addr);