cleanup: namespace Montauk (capital M) => montauk::abi

This commit is contained in:
2026-06-16 09:09:16 +02:00
parent b091af7653
commit e3dc1e881d
165 changed files with 758 additions and 758 deletions
+1 -1
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@@ -424,7 +424,7 @@ namespace Hal {
reinitProgress(0x02); // TSS reinitProgress(0x02); // TSS
Hal::LoadTSS(); Hal::LoadTSS();
reinitProgress(0x03); // Syscalls reinitProgress(0x03); // Syscalls
Montauk::InitializeSyscalls(); montauk::abi::InitializeSyscalls();
// Re-set GS base for BSP (lost during S3) // Re-set GS base for BSP (lost during S3)
{ {
auto* bsp = Smp::GetCpuData(0); auto* bsp = Smp::GetCpuData(0);
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@@ -17,7 +17,7 @@
#include "Syscall.hpp" #include "Syscall.hpp"
namespace Montauk { namespace montauk::abi {
// Audio handle convention: // Audio handle convention:
// 0x00 - 0x07 : Mixer virtual streams (one per opened audio handle) // 0x00 - 0x07 : Mixer virtual streams (one per opened audio handle)
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@@ -12,7 +12,7 @@
#include "Syscall.hpp" #include "Syscall.hpp"
namespace Montauk { namespace montauk::abi {
static int64_t Sys_BtScan(BtScanResult* buf, int maxCount, uint32_t timeoutMs) { static int64_t Sys_BtScan(BtScanResult* buf, int maxCount, uint32_t timeoutMs) {
if (!buf || maxCount <= 0) return -1; if (!buf || maxCount <= 0) return -1;
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@@ -12,4 +12,4 @@
#pragma once #pragma once
#define MONTAUK_BUILD_NUMBER 24 #define MONTAUK_BUILD_NUMBER 25
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@@ -12,7 +12,7 @@
#include "Syscall.hpp" #include "Syscall.hpp"
namespace Montauk { namespace montauk::abi {
static constexpr int ClipboardMaxSlots = 32; static constexpr int ClipboardMaxSlots = 32;
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@@ -3,7 +3,7 @@
#include <Sched/Scheduler.hpp> #include <Sched/Scheduler.hpp>
#include <Ipc/Ipc.hpp> #include <Ipc/Ipc.hpp>
namespace Montauk { namespace montauk::abi {
static Sched::Process* GetRedirTarget(Sched::Process* proc) { static Sched::Process* GetRedirTarget(Sched::Process* proc) {
if (!proc || !proc->redirected) return nullptr; if (!proc || !proc->redirected) return nullptr;
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@@ -9,7 +9,7 @@
#include "Syscall.hpp" #include "Syscall.hpp"
#include "../Sched/CrashReport.hpp" #include "../Sched/CrashReport.hpp"
namespace Montauk { namespace montauk::abi {
static int64_t Sys_CrashReport(CrashReportInfo* out) { static int64_t Sys_CrashReport(CrashReportInfo* out) {
if (!out) return 0; if (!out) return 0;
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@@ -22,7 +22,7 @@
#include <Drivers/Storage/BlockDevice.hpp> #include <Drivers/Storage/BlockDevice.hpp>
#include <Drivers/Storage/Nvme.hpp> #include <Drivers/Storage/Nvme.hpp>
namespace Montauk { namespace montauk::abi {
static void dl_strcpy(char* dst, const char* src, int max) { static void dl_strcpy(char* dst, const char* src, int max) {
int i = 0; int i = 0;
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@@ -17,7 +17,7 @@
#include <Ipc/Ipc.hpp> #include <Ipc/Ipc.hpp>
#include "Path.hpp" #include "Path.hpp"
namespace Montauk { namespace montauk::abi {
static int Sys_Open(const char* path) { static int Sys_Open(const char* path) {
char resolved[256]; char resolved[256];
if (!ResolveProcessPath(path, resolved, sizeof(resolved))) return -1; if (!ResolveProcessPath(path, resolved, sizeof(resolved))) return -1;
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@@ -16,7 +16,7 @@
#include "Common.hpp" #include "Common.hpp"
#include "../Libraries/flanterm/src/flanterm.h" #include "../Libraries/flanterm/src/flanterm.h"
namespace Montauk { namespace montauk::abi {
static void Sys_FbInfo(FbInfo* out) { static void Sys_FbInfo(FbInfo* out) {
if (out == nullptr) return; if (out == nullptr) return;
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@@ -10,7 +10,7 @@
#include <Memory/HHDM.hpp> #include <Memory/HHDM.hpp>
#include <Memory/PageFrameAllocator.hpp> #include <Memory/PageFrameAllocator.hpp>
namespace Montauk { namespace montauk::abi {
// Per-process heap allocation tracking (separate from Process struct to avoid bloating it) // Per-process heap allocation tracking (separate from Process struct to avoid bloating it)
struct HeapAlloc { struct HeapAlloc {
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@@ -10,7 +10,7 @@
#include "BuildNo.hpp" #include "BuildNo.hpp"
#include "Syscall.hpp" #include "Syscall.hpp"
namespace Montauk { namespace montauk::abi {
static void Sys_GetInfo(SysInfo* outInfo) { static void Sys_GetInfo(SysInfo* outInfo) {
if (outInfo == nullptr) return; if (outInfo == nullptr) return;
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@@ -7,7 +7,7 @@
#pragma once #pragma once
#include <Drivers/Input/InputEvents.hpp> #include <Drivers/Input/InputEvents.hpp>
namespace Montauk { namespace montauk::abi {
static uint64_t Sys_InputWait(uint64_t observedSerial, uint64_t timeoutMs) { static uint64_t Sys_InputWait(uint64_t observedSerial, uint64_t timeoutMs) {
return Drivers::InputEvents::WaitForChange(observedSerial, timeoutMs); return Drivers::InputEvents::WaitForChange(observedSerial, timeoutMs);
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@@ -11,7 +11,7 @@
#include "Common.hpp" #include "Common.hpp"
#include "Path.hpp" #include "Path.hpp"
namespace Montauk { namespace montauk::abi {
static constexpr uint32_t RedirOutputStreamCapacity = 64 * 1024; static constexpr uint32_t RedirOutputStreamCapacity = 64 * 1024;
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@@ -9,7 +9,7 @@
#include <Sched/Scheduler.hpp> #include <Sched/Scheduler.hpp>
#include "Syscall.hpp" #include "Syscall.hpp"
namespace Montauk { namespace montauk::abi {
static int Sys_DupHandle(int handle) { static int Sys_DupHandle(int handle) {
return Ipc::DupHandle(handle); return Ipc::DupHandle(handle);
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@@ -11,7 +11,7 @@
#include "Common.hpp" #include "Common.hpp"
namespace Montauk { namespace montauk::abi {
static bool Sys_IsKeyAvailable() { static bool Sys_IsKeyAvailable() {
auto* proc = Sched::GetCurrentProcessPtr(); auto* proc = Sched::GetCurrentProcessPtr();
if (proc && proc->redirected) { if (proc && proc->redirected) {
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@@ -14,7 +14,7 @@
#include <Libraries/Memory.hpp> #include <Libraries/Memory.hpp>
#include <Libraries/String.hpp> #include <Libraries/String.hpp>
namespace Montauk { namespace montauk::abi {
// Maximum libraries per process // Maximum libraries per process
static constexpr int MaxLibsPerProcess = 8; static constexpr int MaxLibsPerProcess = 8;
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@@ -9,7 +9,7 @@
#include "Syscall.hpp" #include "Syscall.hpp"
namespace Montauk { namespace montauk::abi {
static void Sys_MemStats(MemStats* out) { static void Sys_MemStats(MemStats* out) {
if (out == nullptr) return; if (out == nullptr) return;
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@@ -9,7 +9,7 @@
#include "Syscall.hpp" #include "Syscall.hpp"
namespace Montauk { namespace montauk::abi {
static void Sys_MouseState(MouseState* out) { static void Sys_MouseState(MouseState* out) {
if (out == nullptr) return; if (out == nullptr) return;
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@@ -19,7 +19,7 @@
#include "Syscall.hpp" #include "Syscall.hpp"
namespace Montauk { namespace montauk::abi {
static uint16_t g_pingSeq = 0; static uint16_t g_pingSeq = 0;
static constexpr uint16_t PING_ID = 0x2E01; // "ZE" static constexpr uint16_t PING_ID = 0x2E01; // "ZE"
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@@ -9,7 +9,7 @@
#include <Sched/Scheduler.hpp> #include <Sched/Scheduler.hpp>
#include <Libraries/Memory.hpp> #include <Libraries/Memory.hpp>
namespace Montauk { namespace montauk::abi {
static int ParseDrivePrefix(const char* path, int* outPrefixLen = nullptr) { static int ParseDrivePrefix(const char* path, int* outPrefixLen = nullptr) {
if (path == nullptr || path[0] < '0' || path[0] > '9') return -1; if (path == nullptr || path[0] < '0' || path[0] > '9') return -1;
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@@ -15,7 +15,7 @@
#include "Syscall.hpp" #include "Syscall.hpp"
namespace Montauk { namespace montauk::abi {
// Pending graceful power-off request, set by the desktop and consumed by // Pending graceful power-off request, set by the desktop and consumed by
// login.elf. Kernel-global IPC channel (one outstanding request system-wide). // login.elf. Kernel-global IPC channel (one outstanding request system-wide).
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@@ -18,7 +18,7 @@
#include "WinServer.hpp" #include "WinServer.hpp"
#include "Path.hpp" #include "Path.hpp"
namespace Montauk { namespace montauk::abi {
static void Sys_Exit(int exitCode) { static void Sys_Exit(int exitCode) {
(void)exitCode; (void)exitCode;
Sched::ExitProcess(); Sched::ExitProcess();
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@@ -7,7 +7,7 @@
#pragma once #pragma once
#include <cstdint> #include <cstdint>
namespace Montauk { namespace montauk::abi {
// ---- Random number generation ---- // ---- Random number generation ----
// Uses RDTSC mixed with xorshift64* PRNG for entropy. // Uses RDTSC mixed with xorshift64* PRNG for entropy.
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@@ -15,7 +15,7 @@
#include "Syscall.hpp" #include "Syscall.hpp"
namespace Montauk { namespace montauk::abi {
static void dl_strcpy_s(char* dst, const char* src, int max) { static void dl_strcpy_s(char* dst, const char* src, int max) {
int i = 0; int i = 0;
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@@ -42,7 +42,7 @@
// Assembly entry point // Assembly entry point
extern "C" void SyscallEntry(); extern "C" void SyscallEntry();
namespace Montauk { namespace montauk::abi {
static constexpr uint64_t kMaxPrintableStringBytes = 4096; static constexpr uint64_t kMaxPrintableStringBytes = 4096;
static constexpr uint64_t kMaxPathBytes = 256; static constexpr uint64_t kMaxPathBytes = 256;
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@@ -8,7 +8,7 @@
#include <cstdint> #include <cstdint>
#include <cstddef> #include <cstddef>
namespace Montauk { namespace montauk::abi {
// Syscall numbers // Syscall numbers
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@@ -10,7 +10,7 @@
#include "Common.hpp" #include "Common.hpp"
namespace Montauk { namespace montauk::abi {
static void Sys_Print(const char* text) { static void Sys_Print(const char* text) {
auto* proc = Sched::GetCurrentProcessPtr(); auto* proc = Sched::GetCurrentProcessPtr();
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@@ -10,7 +10,7 @@
#include "Syscall.hpp" #include "Syscall.hpp"
namespace Montauk { namespace montauk::abi {
static uint64_t Sys_GetTicks() { static uint64_t Sys_GetTicks() {
return Timekeeping::GetTicks(); return Timekeeping::GetTicks();
} }
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@@ -6,7 +6,7 @@
#include <Sched/Scheduler.hpp> #include <Sched/Scheduler.hpp>
#include <Memory/Paging.hpp> #include <Memory/Paging.hpp>
namespace Montauk::UserMemory { namespace montauk::abi::UserMemory {
static constexpr uint64_t USER_SPACE_END = 0x0000800000000000ULL; static constexpr uint64_t USER_SPACE_END = 0x0000800000000000ULL;
+7 -7
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@@ -94,7 +94,7 @@ namespace WinServer {
ResetSlotLocked(slot); ResetSlotLocked(slot);
} }
static int SendEventLocked(int windowId, const Montauk::WinEvent* event) { static int SendEventLocked(int windowId, const montauk::abi::WinEvent* event) {
if (windowId < 0 || windowId >= MaxWindows || event == nullptr) return -1; if (windowId < 0 || windowId >= MaxWindows || event == nullptr) return -1;
WindowSlot& slot = g_slots[windowId]; WindowSlot& slot = g_slots[windowId];
if (!slot.used || slot.eventMailbox == nullptr) return -1; if (!slot.used || slot.eventMailbox == nullptr) return -1;
@@ -200,7 +200,7 @@ namespace WinServer {
return 0; return 0;
} }
int Poll(int windowId, int callerPid, Montauk::WinEvent* outEvent) { int Poll(int windowId, int callerPid, montauk::abi::WinEvent* outEvent) {
WsGuard guard; WsGuard guard;
if (windowId < 0 || windowId >= MaxWindows || outEvent == nullptr) return -1; if (windowId < 0 || windowId >= MaxWindows || outEvent == nullptr) return -1;
@@ -213,13 +213,13 @@ namespace WinServer {
return rc > 0 ? 1 : 0; return rc > 0 ? 1 : 0;
} }
int Enumerate(Montauk::WinInfo* outArray, int maxCount) { int Enumerate(montauk::abi::WinInfo* outArray, int maxCount) {
WsGuard guard; WsGuard guard;
int count = 0; int count = 0;
for (int i = 0; i < MaxWindows && count < maxCount; i++) { for (int i = 0; i < MaxWindows && count < maxCount; i++) {
if (!g_slots[i].used) continue; if (!g_slots[i].used) continue;
Montauk::WinInfo& info = outArray[count]; montauk::abi::WinInfo& info = outArray[count];
info.id = i; info.id = i;
info.ownerPid = g_slots[i].ownerPid; info.ownerPid = g_slots[i].ownerPid;
for (int j = 0; j < 64; j++) info.title[j] = g_slots[i].title[j]; for (int j = 0; j < 64; j++) info.title[j] = g_slots[i].title[j];
@@ -263,7 +263,7 @@ namespace WinServer {
return result; return result;
} }
int SendEvent(int windowId, const Montauk::WinEvent* event) { int SendEvent(int windowId, const montauk::abi::WinEvent* event) {
WsGuard guard; WsGuard guard;
return SendEventLocked(windowId, event); return SendEventLocked(windowId, event);
} }
@@ -346,7 +346,7 @@ namespace WinServer {
WindowSlot& slot = g_slots[windowId]; WindowSlot& slot = g_slots[windowId];
if (!slot.used || slot.ownerPid != callerPid) return -1; if (!slot.used || slot.ownerPid != callerPid) return -1;
slot.flags = flags & Montauk::WIN_FLAG_FULLSCREEN; slot.flags = flags & montauk::abi::WIN_FLAG_FULLSCREEN;
return 0; return 0;
} }
@@ -356,7 +356,7 @@ namespace WinServer {
if (scale > 2) scale = 2; if (scale > 2) scale = 2;
g_uiScale = scale; g_uiScale = scale;
Montauk::WinEvent ev{}; montauk::abi::WinEvent ev{};
ev.type = 4; ev.type = 4;
ev.scale.scale = scale; ev.scale.scale = scale;
for (int i = 0; i < MaxWindows; i++) { for (int i = 0; i < MaxWindows; i++) {
+3 -3
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@@ -31,11 +31,11 @@ namespace WinServer {
uint64_t& heapNext, uint64_t& outVa); uint64_t& heapNext, uint64_t& outVa);
int Destroy(int windowId, int callerPid); int Destroy(int windowId, int callerPid);
int Present(int windowId, int callerPid); int Present(int windowId, int callerPid);
int Poll(int windowId, int callerPid, Montauk::WinEvent* outEvent); int Poll(int windowId, int callerPid, montauk::abi::WinEvent* outEvent);
int Enumerate(Montauk::WinInfo* outArray, int maxCount); int Enumerate(montauk::abi::WinInfo* outArray, int maxCount);
uint64_t Map(int windowId, int callerPid, uint64_t callerPml4, uint64_t& heapNext); uint64_t Map(int windowId, int callerPid, uint64_t callerPml4, uint64_t& heapNext);
int Unmap(int windowId, int callerPid, uint64_t callerPml4); int Unmap(int windowId, int callerPid, uint64_t callerPml4);
int SendEvent(int windowId, const Montauk::WinEvent* event); int SendEvent(int windowId, const montauk::abi::WinEvent* event);
int Resize(int windowId, int callerPid, uint64_t ownerPml4, int newW, int newH, int Resize(int windowId, int callerPid, uint64_t ownerPml4, int newW, int newH,
uint64_t& heapNext, uint64_t& outVa); uint64_t& heapNext, uint64_t& outVa);
void CleanupProcess(int pid); void CleanupProcess(int pid);
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@@ -12,7 +12,7 @@
#include "Syscall.hpp" #include "Syscall.hpp"
#include "WinServer.hpp" #include "WinServer.hpp"
namespace Montauk { namespace montauk::abi {
static int Sys_WinCreate(const char* title, int w, int h, WinCreateResult* result) { static int Sys_WinCreate(const char* title, int w, int h, WinCreateResult* result) {
if (result == nullptr || title == nullptr) return -1; if (result == nullptr || title == nullptr) return -1;
+11 -11
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@@ -437,15 +437,15 @@ namespace Drivers::Audio::Mixer {
int Control(int handle, int cmd, int value) { int Control(int handle, int cmd, int value) {
// Master-scope commands ignore the handle. // Master-scope commands ignore the handle.
switch (cmd) { switch (cmd) {
case Montauk::AUDIO_CTL_SET_MASTER_VOLUME: case montauk::abi::AUDIO_CTL_SET_MASTER_VOLUME:
SetMasterVolume(value); SetMasterVolume(value);
return 0; return 0;
case Montauk::AUDIO_CTL_GET_MASTER_VOLUME: case montauk::abi::AUDIO_CTL_GET_MASTER_VOLUME:
return GetMasterVolume(); return GetMasterVolume();
case Montauk::AUDIO_CTL_SET_MASTER_MUTE: case montauk::abi::AUDIO_CTL_SET_MASTER_MUTE:
SetMasterMute(value != 0); SetMasterMute(value != 0);
return 0; return 0;
case Montauk::AUDIO_CTL_GET_MASTER_MUTE: case montauk::abi::AUDIO_CTL_GET_MASTER_MUTE:
return GetMasterMute() ? 1 : 0; return GetMasterMute() ? 1 : 0;
} }
@@ -458,27 +458,27 @@ namespace Drivers::Audio::Mixer {
int rv = -1; int rv = -1;
bool changed = false; bool changed = false;
switch (cmd) { switch (cmd) {
case Montauk::AUDIO_CTL_SET_VOLUME: { case montauk::abi::AUDIO_CTL_SET_VOLUME: {
int v = value; if (v < 0) v = 0; if (v > 100) v = 100; int v = value; if (v < 0) v = 0; if (v > 100) v = 100;
if (s.volume != (uint8_t)v) { s.volume = (uint8_t)v; changed = true; } if (s.volume != (uint8_t)v) { s.volume = (uint8_t)v; changed = true; }
rv = 0; rv = 0;
break; break;
} }
case Montauk::AUDIO_CTL_GET_VOLUME: case montauk::abi::AUDIO_CTL_GET_VOLUME:
rv = s.volume; rv = s.volume;
break; break;
case Montauk::AUDIO_CTL_GET_POS: case montauk::abi::AUDIO_CTL_GET_POS:
rv = (int)(s.consumedInputBytes & 0x7FFFFFFF); rv = (int)(s.consumedInputBytes & 0x7FFFFFFF);
break; break;
case Montauk::AUDIO_CTL_PAUSE: case montauk::abi::AUDIO_CTL_PAUSE:
if (s.paused != (value != 0)) { s.paused = (value != 0); changed = true; } if (s.paused != (value != 0)) { s.paused = (value != 0); changed = true; }
rv = 0; rv = 0;
break; break;
case Montauk::AUDIO_CTL_SET_MUTE: case montauk::abi::AUDIO_CTL_SET_MUTE:
if (s.muted != (value != 0)) { s.muted = (value != 0); changed = true; } if (s.muted != (value != 0)) { s.muted = (value != 0); changed = true; }
rv = 0; rv = 0;
break; break;
case Montauk::AUDIO_CTL_GET_MUTE: case montauk::abi::AUDIO_CTL_GET_MUTE:
rv = s.muted ? 1 : 0; rv = s.muted ? 1 : 0;
break; break;
default: default:
@@ -491,7 +491,7 @@ namespace Drivers::Audio::Mixer {
return rv; return rv;
} }
int List(Montauk::AudioStreamInfo* buf, int maxCount) { int List(montauk::abi::AudioStreamInfo* buf, int maxCount) {
if (!buf || maxCount <= 0) return 0; if (!buf || maxCount <= 0) return 0;
g_lock.Acquire(); g_lock.Acquire();
int count = 0; int count = 0;
+1 -1
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@@ -29,7 +29,7 @@ namespace Drivers::Audio::Mixer {
int Control(int handle, int cmd, int value); int Control(int handle, int cmd, int value);
// Enumerate all currently-active streams. // Enumerate all currently-active streams.
int List(Montauk::AudioStreamInfo* buf, int maxCount); int List(montauk::abi::AudioStreamInfo* buf, int maxCount);
// Close every stream owned by `pid`. Called from the scheduler on process // Close every stream owned by `pid`. Called from the scheduler on process
// exit / kill so leaked handles do not occupy mixer slots. // exit / kill so leaked handles do not occupy mixer slots.
+18 -18
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@@ -808,7 +808,7 @@ namespace Ipc {
int StreamReadHandle(int handle, uint8_t* out, int maxLen) { int StreamReadHandle(int handle, uint8_t* out, int maxLen) {
if (out == nullptr) return -1; if (out == nullptr) return -1;
if (maxLen > 0 && !Montauk::UserMemory::Range((uint64_t)out, (uint64_t)maxLen, true)) return -1; if (maxLen > 0 && !montauk::abi::UserMemory::Range((uint64_t)out, (uint64_t)maxLen, true)) return -1;
HandleType type = HandleType::None; HandleType type = HandleType::None;
Object* object = nullptr; Object* object = nullptr;
@@ -820,7 +820,7 @@ namespace Ipc {
int StreamWriteHandle(int handle, const uint8_t* data, int len) { int StreamWriteHandle(int handle, const uint8_t* data, int len) {
if (data == nullptr) return -1; if (data == nullptr) return -1;
if (len > 0 && !Montauk::UserMemory::Range((uint64_t)data, (uint64_t)len, false)) return -1; if (len > 0 && !montauk::abi::UserMemory::Range((uint64_t)data, (uint64_t)len, false)) return -1;
HandleType type = HandleType::None; HandleType type = HandleType::None;
Object* object = nullptr; Object* object = nullptr;
@@ -963,9 +963,9 @@ namespace Ipc {
int MailboxSendCoalescedMouse(Mailbox* mailbox, uint32_t msgType, const void* data, uint16_t len) { int MailboxSendCoalescedMouse(Mailbox* mailbox, uint32_t msgType, const void* data, uint16_t len) {
if (mailbox == nullptr || data == nullptr) return -1; if (mailbox == nullptr || data == nullptr) return -1;
if (len != sizeof(Montauk::WinEvent)) return MailboxSend(mailbox, msgType, data, len); if (len != sizeof(montauk::abi::WinEvent)) return MailboxSend(mailbox, msgType, data, len);
const Montauk::WinEvent* incoming = (const Montauk::WinEvent*)data; const montauk::abi::WinEvent* incoming = (const montauk::abi::WinEvent*)data;
if (incoming->type != 1 || incoming->mouse.scroll != 0) if (incoming->type != 1 || incoming->mouse.scroll != 0)
return MailboxSend(mailbox, msgType, data, len); return MailboxSend(mailbox, msgType, data, len);
@@ -983,7 +983,7 @@ namespace Ipc {
uint32_t idx = (mailbox->head + MaxMailboxMessages - 1) % MaxMailboxMessages; uint32_t idx = (mailbox->head + MaxMailboxMessages - 1) % MaxMailboxMessages;
MailboxMessage& latest = mailbox->messages[idx]; MailboxMessage& latest = mailbox->messages[idx];
if (latest.type == msgType && latest.size == len && !latest.hasAttachment) { if (latest.type == msgType && latest.size == len && !latest.hasAttachment) {
const Montauk::WinEvent* queued = (const Montauk::WinEvent*)latest.data; const montauk::abi::WinEvent* queued = (const montauk::abi::WinEvent*)latest.data;
bool queuedTransition = queued->type != 1 || bool queuedTransition = queued->type != 1 ||
queued->mouse.scroll != 0 || queued->mouse.scroll != 0 ||
queued->mouse.buttons != queued->mouse.prev_buttons; queued->mouse.buttons != queued->mouse.prev_buttons;
@@ -1060,7 +1060,7 @@ namespace Ipc {
} }
int MailboxSendHandle(int handle, uint32_t msgType, const void* data, uint16_t len, int attachHandle) { int MailboxSendHandle(int handle, uint32_t msgType, const void* data, uint16_t len, int attachHandle) {
if (len > 0 && (data == nullptr || !Montauk::UserMemory::Range((uint64_t)data, len, false))) return -1; if (len > 0 && (data == nullptr || !montauk::abi::UserMemory::Range((uint64_t)data, len, false))) return -1;
HandleType type = HandleType::None; HandleType type = HandleType::None;
Object* object = nullptr; Object* object = nullptr;
@@ -1072,12 +1072,12 @@ namespace Ipc {
} }
int MailboxRecvHandle(int handle, uint32_t* msgType, void* data, uint16_t* inOutLen, int* outAttachHandle) { int MailboxRecvHandle(int handle, uint32_t* msgType, void* data, uint16_t* inOutLen, int* outAttachHandle) {
if (inOutLen == nullptr || !Montauk::UserMemory::Writable<uint16_t>((uint64_t)inOutLen)) return -1; if (inOutLen == nullptr || !montauk::abi::UserMemory::Writable<uint16_t>((uint64_t)inOutLen)) return -1;
uint16_t requestedLen = *inOutLen; uint16_t requestedLen = *inOutLen;
if (msgType != nullptr && !Montauk::UserMemory::Writable<uint32_t>((uint64_t)msgType)) return -1; if (msgType != nullptr && !montauk::abi::UserMemory::Writable<uint32_t>((uint64_t)msgType)) return -1;
if (requestedLen > 0 && (data == nullptr || !Montauk::UserMemory::Range((uint64_t)data, requestedLen, true))) return -1; if (requestedLen > 0 && (data == nullptr || !montauk::abi::UserMemory::Range((uint64_t)data, requestedLen, true))) return -1;
if (outAttachHandle != nullptr && !Montauk::UserMemory::Writable<int>((uint64_t)outAttachHandle)) return -1; if (outAttachHandle != nullptr && !montauk::abi::UserMemory::Writable<int>((uint64_t)outAttachHandle)) return -1;
HandleType type = HandleType::None; HandleType type = HandleType::None;
Object* object = nullptr; Object* object = nullptr;
@@ -1139,7 +1139,7 @@ namespace Ipc {
int FileReadHandle(int handle, uint8_t* buffer, uint64_t offset, uint64_t size) { int FileReadHandle(int handle, uint8_t* buffer, uint64_t offset, uint64_t size) {
if (buffer == nullptr) return -1; if (buffer == nullptr) return -1;
if (size > 0 && !Montauk::UserMemory::Range((uint64_t)buffer, size, true)) return -1; if (size > 0 && !montauk::abi::UserMemory::Range((uint64_t)buffer, size, true)) return -1;
HandleType type = HandleType::None; HandleType type = HandleType::None;
Object* object = nullptr; Object* object = nullptr;
@@ -1151,7 +1151,7 @@ namespace Ipc {
int FileWriteHandle(int handle, const uint8_t* buffer, uint64_t offset, uint64_t size) { int FileWriteHandle(int handle, const uint8_t* buffer, uint64_t offset, uint64_t size) {
if (buffer == nullptr) return -1; if (buffer == nullptr) return -1;
if (size > 0 && !Montauk::UserMemory::Range((uint64_t)buffer, size, false)) return -1; if (size > 0 && !montauk::abi::UserMemory::Range((uint64_t)buffer, size, false)) return -1;
HandleType type = HandleType::None; HandleType type = HandleType::None;
Object* object = nullptr; Object* object = nullptr;
@@ -1371,7 +1371,7 @@ namespace Ipc {
int SocketSendHandle(int handle, const uint8_t* data, uint32_t len) { int SocketSendHandle(int handle, const uint8_t* data, uint32_t len) {
if (data == nullptr) return -1; if (data == nullptr) return -1;
if (len > 0 && !Montauk::UserMemory::Range((uint64_t)data, len, false)) return -1; if (len > 0 && !montauk::abi::UserMemory::Range((uint64_t)data, len, false)) return -1;
Socket* socket = nullptr; Socket* socket = nullptr;
uint32_t rights = 0; uint32_t rights = 0;
@@ -1387,7 +1387,7 @@ namespace Ipc {
int SocketRecvHandle(int handle, uint8_t* buffer, uint32_t maxLen) { int SocketRecvHandle(int handle, uint8_t* buffer, uint32_t maxLen) {
if (buffer == nullptr) return -1; if (buffer == nullptr) return -1;
if (maxLen > 0 && !Montauk::UserMemory::Range((uint64_t)buffer, maxLen, true)) return -1; if (maxLen > 0 && !montauk::abi::UserMemory::Range((uint64_t)buffer, maxLen, true)) return -1;
Socket* socket = nullptr; Socket* socket = nullptr;
uint32_t rights = 0; uint32_t rights = 0;
@@ -1406,7 +1406,7 @@ namespace Ipc {
int SocketSendToHandle(int handle, const uint8_t* data, uint32_t len, uint32_t destIp, uint16_t destPort) { int SocketSendToHandle(int handle, const uint8_t* data, uint32_t len, uint32_t destIp, uint16_t destPort) {
if (data == nullptr) return -1; if (data == nullptr) return -1;
if (len > 0 && !Montauk::UserMemory::Range((uint64_t)data, len, false)) return -1; if (len > 0 && !montauk::abi::UserMemory::Range((uint64_t)data, len, false)) return -1;
Socket* socket = nullptr; Socket* socket = nullptr;
uint32_t rights = 0; uint32_t rights = 0;
@@ -1437,9 +1437,9 @@ namespace Ipc {
int SocketRecvFromHandle(int handle, uint8_t* buffer, uint32_t maxLen, uint32_t* srcIp, uint16_t* srcPort) { int SocketRecvFromHandle(int handle, uint8_t* buffer, uint32_t maxLen, uint32_t* srcIp, uint16_t* srcPort) {
if (buffer == nullptr) return -1; if (buffer == nullptr) return -1;
if (maxLen > 0 && !Montauk::UserMemory::Range((uint64_t)buffer, maxLen, true)) return -1; if (maxLen > 0 && !montauk::abi::UserMemory::Range((uint64_t)buffer, maxLen, true)) return -1;
if (srcIp != nullptr && !Montauk::UserMemory::Writable<uint32_t>((uint64_t)srcIp)) return -1; if (srcIp != nullptr && !montauk::abi::UserMemory::Writable<uint32_t>((uint64_t)srcIp)) return -1;
if (srcPort != nullptr && !Montauk::UserMemory::Writable<uint16_t>((uint64_t)srcPort)) return -1; if (srcPort != nullptr && !montauk::abi::UserMemory::Writable<uint16_t>((uint64_t)srcPort)) return -1;
Socket* socket = nullptr; Socket* socket = nullptr;
uint32_t rights = 0; uint32_t rights = 0;
+1 -1
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@@ -185,7 +185,7 @@ extern "C" void kmain() {
Drivers::USB::Bluetooth::ServiceDeferredInit(); Drivers::USB::Bluetooth::ServiceDeferredInit();
Hal::LoadTSS(); Hal::LoadTSS();
Montauk::InitializeSyscalls(); montauk::abi::InitializeSyscalls();
Sched::Initialize(); Sched::Initialize();
Ipc::Initialize(); Ipc::Initialize();
+1 -1
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@@ -200,7 +200,7 @@ namespace Memory {
FreeRange(ptr, (size_t)n * 0x1000); FreeRange(ptr, (size_t)n * 0x1000);
} }
void PageFrameAllocator::GetStats(Montauk::MemStats* out) { void PageFrameAllocator::GetStats(montauk::abi::MemStats* out) {
if (!out) return; if (!out) return;
Lock.Acquire(); Lock.Acquire();
uint64_t freeBytes = 0; uint64_t freeBytes = 0;
+1 -1
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@@ -31,7 +31,7 @@ public:
void Free(void* ptr); void Free(void* ptr);
void Free(void* ptr, int n); void Free(void* ptr, int n);
void GetStats(Montauk::MemStats* out); void GetStats(montauk::abi::MemStats* out);
}; };
extern PageFrameAllocator* g_pfa; extern PageFrameAllocator* g_pfa;
+2 -2
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@@ -1089,8 +1089,8 @@ namespace Sched {
// Release process-scoped IPC handles/mappings before tearing down the address space. // Release process-scoped IPC handles/mappings before tearing down the address space.
Ipc::CleanupProcessSlot(slot, exitingPid, proc.pml4Phys); Ipc::CleanupProcessSlot(slot, exitingPid, proc.pml4Phys);
Montauk::CleanupHeapForSlot(slot, proc.pml4Phys); montauk::abi::CleanupHeapForSlot(slot, proc.pml4Phys);
Montauk::CleanupLibTable(slot); montauk::abi::CleanupLibTable(slot);
proc.waitingForPid = -1; proc.waitingForPid = -1;
proc.sleepUntilTick = 0; proc.sleepUntilTick = 0;
+1 -1
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@@ -82,7 +82,7 @@ namespace Sched {
uint8_t* inBuf = nullptr; // 4KB ring: parent writes, child reads (getchar) uint8_t* inBuf = nullptr; // 4KB ring: parent writes, child reads (getchar)
volatile uint32_t inHead = 0; volatile uint32_t inHead = 0;
volatile uint32_t inTail = 0; volatile uint32_t inTail = 0;
Montauk::KeyEvent keyBuf[64]; // parent injects, child reads (getkey/iskeyavailable) montauk::abi::KeyEvent keyBuf[64]; // parent injects, child reads (getkey/iskeyavailable)
volatile uint32_t keyHead = 0; volatile uint32_t keyHead = 0;
volatile uint32_t keyTail = 0; volatile uint32_t keyTail = 0;
static constexpr uint32_t IoBufSize = 4096; static constexpr uint32_t IoBufSize = 4096;
+1 -1
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@@ -8,7 +8,7 @@
#include <cstdint> #include <cstdint>
#include <cstddef> #include <cstddef>
namespace Montauk { namespace montauk::abi {
// Syscall numbers // Syscall numbers
static constexpr uint64_t SYS_EXIT = 0; static constexpr uint64_t SYS_EXIT = 0;
+2 -2
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@@ -56,7 +56,7 @@ struct Engine {
} }
// Create window // Create window
Montauk::WinCreateResult wres; montauk::abi::WinCreateResult wres;
if (montauk::win_create(title, w, h, &wres) < 0 || wres.id < 0) if (montauk::win_create(title, w, h, &wres) < 0 || wres.id < 0)
return false; return false;
@@ -77,7 +77,7 @@ struct Engine {
} }
// Poll one window event. Returns true if an event was received. // Poll one window event. Returns true if an event was received.
bool poll(Montauk::WinEvent* ev) { bool poll(montauk::abi::WinEvent* ev) {
int r = montauk::win_poll(win_id, ev); int r = montauk::win_poll(win_id, ev);
if (r < 0) { running = false; return false; } if (r < 0) { running = false; return false; }
if (r == 0) return false; if (r == 0) return false;
+1 -1
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@@ -55,7 +55,7 @@ struct InputState {
} }
// Process a window event // Process a window event
void handle_event(const Montauk::WinEvent& ev) { void handle_event(const montauk::abi::WinEvent& ev) {
if (ev.type == 0) { // keyboard if (ev.type == 0) { // keyboard
// PS/2 scan code set 1: release codes have bit 7 set. // PS/2 scan code set 1: release codes have bit 7 set.
// Mask to base scancode so press and release map to the same index. // Mask to base scancode so press and release map to the same index.
+3 -3
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@@ -22,13 +22,13 @@ namespace gui {
return clipboard_set_text(text, text ? montauk::slen(text) : 0); return clipboard_set_text(text, text ? montauk::slen(text) : 0);
} }
inline bool clipboard_get_info(Montauk::ClipboardInfo* out) { inline bool clipboard_get_info(montauk::abi::ClipboardInfo* out) {
if (out == nullptr) return false; if (out == nullptr) return false;
return montauk::clipboard_get_info(out) == 0; return montauk::clipboard_get_info(out) == 0;
} }
inline bool clipboard_has_text() { inline bool clipboard_has_text() {
Montauk::ClipboardInfo info = {}; montauk::abi::ClipboardInfo info = {};
return clipboard_get_info(&info) && info.textBytes > 0; return clipboard_get_info(&info) && info.textBytes > 0;
} }
@@ -36,7 +36,7 @@ namespace gui {
if (out_len) *out_len = 0; if (out_len) *out_len = 0;
if (out_serial) *out_serial = 0; if (out_serial) *out_serial = 0;
Montauk::ClipboardInfo info = {}; montauk::abi::ClipboardInfo info = {};
if (!clipboard_get_info(&info) || info.textBytes == 0) if (!clipboard_get_info(&info) || info.textBytes == 0)
return nullptr; return nullptr;
+4 -4
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@@ -88,7 +88,7 @@ struct DesktopState {
char user_config_dir[128]; // "0:/users/<username>/config" char user_config_dir[128]; // "0:/users/<username>/config"
bool is_admin; bool is_admin;
Montauk::MouseState mouse; montauk::abi::MouseState mouse;
uint8_t prev_buttons; uint8_t prev_buttons;
bool app_menu_open; bool app_menu_open;
@@ -160,7 +160,7 @@ struct DesktopState {
int ctx_menu_x, ctx_menu_y; int ctx_menu_x, ctx_menu_y;
bool net_popup_open; bool net_popup_open;
Montauk::NetCfg cached_net_cfg; montauk::abi::NetCfg cached_net_cfg;
uint64_t net_cfg_last_poll; uint64_t net_cfg_last_poll;
Rect net_icon_rect; Rect net_icon_rect;
@@ -175,7 +175,7 @@ struct DesktopState {
// Temperature monitoring // Temperature monitoring
static constexpr int MAX_THERMAL_ZONES = 8; static constexpr int MAX_THERMAL_ZONES = 8;
Montauk::ThermalInfo thermal_zones[MAX_THERMAL_ZONES]; montauk::abi::ThermalInfo thermal_zones[MAX_THERMAL_ZONES];
int thermal_zone_count; int thermal_zone_count;
uint64_t thermal_last_poll; uint64_t thermal_last_poll;
Rect temp_icon_rect; Rect temp_icon_rect;
@@ -214,6 +214,6 @@ void desktop_raise_window(DesktopState* ds, int idx);
void desktop_draw_panel(DesktopState* ds); void desktop_draw_panel(DesktopState* ds);
void desktop_draw_window(DesktopState* ds, int idx); void desktop_draw_window(DesktopState* ds, int idx);
void desktop_handle_mouse(DesktopState* ds); void desktop_handle_mouse(DesktopState* ds);
void desktop_handle_keyboard(DesktopState* ds, const Montauk::KeyEvent& key); void desktop_handle_keyboard(DesktopState* ds, const montauk::abi::KeyEvent& key);
} // namespace gui } // namespace gui
+1 -1
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@@ -61,7 +61,7 @@ class Framebuffer {
public: public:
Framebuffer() : hw_fb(nullptr), back_buf(nullptr), fb_width(0), fb_height(0), fb_pitch(0) { Framebuffer() : hw_fb(nullptr), back_buf(nullptr), fb_width(0), fb_height(0), fb_pitch(0) {
Montauk::FbInfo info; montauk::abi::FbInfo info;
montauk::fb_info(&info); montauk::fb_info(&info);
fb_width = (int)info.width; fb_width = (int)info.width;
+1 -1
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@@ -552,7 +552,7 @@ inline int text_input_handle_mouse(TextInputState& state,
inline int text_input_key(TextInputState& state, inline int text_input_key(TextInputState& state,
char* text, char* text,
int cap, int cap,
const Montauk::KeyEvent& key, const montauk::abi::KeyEvent& key,
TextInputCharFilter filter = nullptr, TextInputCharFilter filter = nullptr,
void* userdata = nullptr, void* userdata = nullptr,
bool masked = false) { bool masked = false) {
+2 -2
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@@ -24,7 +24,7 @@ struct WsWindow {
: id(-1), pixels(nullptr), width(0), height(0), scale_factor(1), closed(false) {} : id(-1), pixels(nullptr), width(0), height(0), scale_factor(1), closed(false) {}
bool create(const char* title, int w, int h) { bool create(const char* title, int w, int h) {
Montauk::WinCreateResult wres; montauk::abi::WinCreateResult wres;
if (montauk::win_create(title, w, h, &wres) < 0 || wres.id < 0) if (montauk::win_create(title, w, h, &wres) < 0 || wres.id < 0)
return false; return false;
@@ -37,7 +37,7 @@ struct WsWindow {
return true; return true;
} }
int poll(Montauk::WinEvent* ev) { int poll(montauk::abi::WinEvent* ev) {
if (id < 0 || closed) return -1; if (id < 0 || closed) return -1;
int r = montauk::win_poll(id, ev); int r = montauk::win_poll(id, ev);
+1 -1
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@@ -831,7 +831,7 @@ static inline void terminal_resize(TerminalState* t, int new_cols, int new_rows)
} }
} }
static inline void terminal_handle_key(TerminalState* t, const Montauk::KeyEvent& key) { static inline void terminal_handle_key(TerminalState* t, const montauk::abi::KeyEvent& key) {
// Snap to live on any keyboard input // Snap to live on any keyboard input
if (t->view_offset > 0) { if (t->view_offset > 0) {
t->view_offset = 0; t->view_offset = 0;
+1 -1
View File
@@ -227,7 +227,7 @@ struct TextBox {
} }
} }
void handle_key(const Montauk::KeyEvent& key) { void handle_key(const montauk::abi::KeyEvent& key) {
if (!focused || !key.pressed) return; if (!focused || !key.pressed) return;
if (key.ascii == '\b' || key.scancode == 0x0E) { if (key.ascii == '\b' || key.scancode == 0x0E) {
+1 -1
View File
@@ -32,7 +32,7 @@ static constexpr int MIN_WINDOW_H = 80;
struct Window; struct Window;
using WindowDrawCallback = void (*)(Window* win, Framebuffer& fb); using WindowDrawCallback = void (*)(Window* win, Framebuffer& fb);
using WindowMouseCallback = void (*)(Window* win, MouseEvent& ev); using WindowMouseCallback = void (*)(Window* win, MouseEvent& ev);
using WindowKeyCallback = void (*)(Window* win, const Montauk::KeyEvent& key); using WindowKeyCallback = void (*)(Window* win, const montauk::abi::KeyEvent& key);
using WindowCloseCallback = void (*)(Window* win); using WindowCloseCallback = void (*)(Window* win);
using WindowPollCallback = void (*)(Window* win); using WindowPollCallback = void (*)(Window* win);
+1 -1
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@@ -350,7 +350,7 @@ inline Response get_plain(const char* host, const char* path,
int reqLen = build_request(req, sizeof(req), "GET", host, path, int reqLen = build_request(req, sizeof(req), "GET", host, path,
nullptr, nullptr, 0, extra_headers); nullptr, nullptr, 0, extra_headers);
int sock = montauk::socket(Montauk::SOCK_TCP); int sock = montauk::socket(montauk::abi::SOCK_TCP);
if (sock < 0) return resp; if (sock < 0) return resp;
if (montauk::connect(sock, ip, 80) < 0) { montauk::closesocket(sock); return resp; } if (montauk::connect(sock, ip, 80) < 0) { montauk::closesocket(sock); return resp; }
+1 -1
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@@ -46,7 +46,7 @@ namespace heap_detail {
static inline void heap_lock_acquire() { static inline void heap_lock_acquire() {
while (__atomic_exchange_n(&g_heap_lock, 1, __ATOMIC_ACQUIRE) != 0) { while (__atomic_exchange_n(&g_heap_lock, 1, __ATOMIC_ACQUIRE) != 0) {
syscall0(Montauk::SYS_YIELD); syscall0(montauk::abi::SYS_YIELD);
} }
} }
static inline void heap_lock_release() { static inline void heap_lock_release() {
+170 -170
View File
@@ -110,519 +110,519 @@ namespace montauk {
// Process // Process
[[noreturn]] inline void exit(int code = 0) { [[noreturn]] inline void exit(int code = 0) {
syscall1(Montauk::SYS_EXIT, (uint64_t)code); syscall1(montauk::abi::SYS_EXIT, (uint64_t)code);
__builtin_unreachable(); __builtin_unreachable();
} }
inline void yield() { syscall0(Montauk::SYS_YIELD); } inline void yield() { syscall0(montauk::abi::SYS_YIELD); }
inline void sleep_ms(uint64_t ms) { syscall1(Montauk::SYS_SLEEP_MS, ms); } inline void sleep_ms(uint64_t ms) { syscall1(montauk::abi::SYS_SLEEP_MS, ms); }
inline int getpid() { return (int)syscall0(Montauk::SYS_GETPID); } inline int getpid() { return (int)syscall0(montauk::abi::SYS_GETPID); }
inline int spawn(const char* path, const char* args = nullptr) { inline int spawn(const char* path, const char* args = nullptr) {
return (int)syscall2(Montauk::SYS_SPAWN, (uint64_t)path, (uint64_t)args); return (int)syscall2(montauk::abi::SYS_SPAWN, (uint64_t)path, (uint64_t)args);
} }
inline int chdir(const char* path) { inline int chdir(const char* path) {
return (int)syscall1(Montauk::SYS_CHDIR, (uint64_t)path); return (int)syscall1(montauk::abi::SYS_CHDIR, (uint64_t)path);
} }
inline int getcwd(char* buf, uint64_t maxLen) { inline int getcwd(char* buf, uint64_t maxLen) {
return (int)syscall2(Montauk::SYS_GETCWD, (uint64_t)buf, maxLen); return (int)syscall2(montauk::abi::SYS_GETCWD, (uint64_t)buf, maxLen);
} }
// Console // Console
inline void print(const char* text) { syscall1(Montauk::SYS_PRINT, (uint64_t)text); } inline void print(const char* text) { syscall1(montauk::abi::SYS_PRINT, (uint64_t)text); }
inline void putchar(char c) { syscall1(Montauk::SYS_PUTCHAR, (uint64_t)c); } inline void putchar(char c) { syscall1(montauk::abi::SYS_PUTCHAR, (uint64_t)c); }
// File I/O // File I/O
inline int open(const char* path) { return (int)syscall1(Montauk::SYS_OPEN, (uint64_t)path); } inline int open(const char* path) { return (int)syscall1(montauk::abi::SYS_OPEN, (uint64_t)path); }
inline int read(int handle, uint8_t* buf, uint64_t off, uint64_t size) { inline int read(int handle, uint8_t* buf, uint64_t off, uint64_t size) {
return (int)syscall4(Montauk::SYS_READ, (uint64_t)handle, (uint64_t)buf, off, size); return (int)syscall4(montauk::abi::SYS_READ, (uint64_t)handle, (uint64_t)buf, off, size);
} }
inline uint64_t getsize(int handle) { return (uint64_t)syscall1(Montauk::SYS_GETSIZE, (uint64_t)handle); } inline uint64_t getsize(int handle) { return (uint64_t)syscall1(montauk::abi::SYS_GETSIZE, (uint64_t)handle); }
inline void close(int handle) { syscall1(Montauk::SYS_CLOSE, (uint64_t)handle); } inline void close(int handle) { syscall1(montauk::abi::SYS_CLOSE, (uint64_t)handle); }
inline int readdir(const char* path, const char** names, int max) { inline int readdir(const char* path, const char** names, int max) {
return (int)syscall3(Montauk::SYS_READDIR, (uint64_t)path, (uint64_t)names, (uint64_t)max); return (int)syscall3(montauk::abi::SYS_READDIR, (uint64_t)path, (uint64_t)names, (uint64_t)max);
} }
// Paginated directory read: returns entries [startIndex, startIndex+max). // Paginated directory read: returns entries [startIndex, startIndex+max).
// Call repeatedly with increasing startIndex (advancing by the returned // Call repeatedly with increasing startIndex (advancing by the returned
// count) until it returns 0 to enumerate directories of any size. // count) until it returns 0 to enumerate directories of any size.
inline int readdir_at(const char* path, const char** names, int max, int startIndex) { inline int readdir_at(const char* path, const char** names, int max, int startIndex) {
return (int)syscall4(Montauk::SYS_READDIR_AT, (uint64_t)path, (uint64_t)names, return (int)syscall4(montauk::abi::SYS_READDIR_AT, (uint64_t)path, (uint64_t)names,
(uint64_t)max, (uint64_t)startIndex); (uint64_t)max, (uint64_t)startIndex);
} }
// File write/create // File write/create
inline int fwrite(int handle, const uint8_t* buf, uint64_t off, uint64_t size) { inline int fwrite(int handle, const uint8_t* buf, uint64_t off, uint64_t size) {
return (int)syscall4(Montauk::SYS_FWRITE, (uint64_t)handle, (uint64_t)buf, off, size); return (int)syscall4(montauk::abi::SYS_FWRITE, (uint64_t)handle, (uint64_t)buf, off, size);
} }
inline int fcreate(const char* path) { inline int fcreate(const char* path) {
return (int)syscall1(Montauk::SYS_FCREATE, (uint64_t)path); return (int)syscall1(montauk::abi::SYS_FCREATE, (uint64_t)path);
} }
inline int fdelete(const char* path) { inline int fdelete(const char* path) {
return (int)syscall1(Montauk::SYS_FDELETE, (uint64_t)path); return (int)syscall1(montauk::abi::SYS_FDELETE, (uint64_t)path);
} }
inline int fmkdir(const char* path) { inline int fmkdir(const char* path) {
return (int)syscall1(Montauk::SYS_FMKDIR, (uint64_t)path); return (int)syscall1(montauk::abi::SYS_FMKDIR, (uint64_t)path);
} }
inline int frename(const char* oldPath, const char* newPath) { inline int frename(const char* oldPath, const char* newPath) {
return (int)syscall2(Montauk::SYS_FRENAME, (uint64_t)oldPath, (uint64_t)newPath); return (int)syscall2(montauk::abi::SYS_FRENAME, (uint64_t)oldPath, (uint64_t)newPath);
} }
inline int drivelist(int* outDrives, int max) { inline int drivelist(int* outDrives, int max) {
return (int)syscall2(Montauk::SYS_DRIVELIST, (uint64_t)outDrives, (uint64_t)max); return (int)syscall2(montauk::abi::SYS_DRIVELIST, (uint64_t)outDrives, (uint64_t)max);
} }
inline int drivelabel(int drive, char* outLabel, int maxLen) { inline int drivelabel(int drive, char* outLabel, int maxLen) {
return (int)syscall3(Montauk::SYS_DRIVELABEL, (uint64_t)drive, (uint64_t)outLabel, (uint64_t)maxLen); return (int)syscall3(montauk::abi::SYS_DRIVELABEL, (uint64_t)drive, (uint64_t)outLabel, (uint64_t)maxLen);
} }
// Returns the kernel BlockDeviceKind backing the drive: 0=unknown/ramdisk, // Returns the kernel BlockDeviceKind backing the drive: 0=unknown/ramdisk,
// 1=SATA, 2=SATAPI, 3=NVMe, 4=USB MSC. // 1=SATA, 2=SATAPI, 3=NVMe, 4=USB MSC.
inline int drivekind(int drive) { inline int drivekind(int drive) {
return (int)syscall1(Montauk::SYS_DRIVEKIND, (uint64_t)drive); return (int)syscall1(montauk::abi::SYS_DRIVEKIND, (uint64_t)drive);
} }
// Memory // Memory
inline void* alloc(uint64_t size) { return (void*)syscall1(Montauk::SYS_ALLOC, size); } inline void* alloc(uint64_t size) { return (void*)syscall1(montauk::abi::SYS_ALLOC, size); }
inline void free(void* ptr) { syscall1(Montauk::SYS_FREE, (uint64_t)ptr); } inline void free(void* ptr) { syscall1(montauk::abi::SYS_FREE, (uint64_t)ptr); }
// Timekeeping // Timekeeping
inline uint64_t get_ticks() { return (uint64_t)syscall0(Montauk::SYS_GETTICKS); } inline uint64_t get_ticks() { return (uint64_t)syscall0(montauk::abi::SYS_GETTICKS); }
inline uint64_t get_milliseconds() { return (uint64_t)syscall0(Montauk::SYS_GETMILLISECONDS); } inline uint64_t get_milliseconds() { return (uint64_t)syscall0(montauk::abi::SYS_GETMILLISECONDS); }
// System // System
inline void get_info(Montauk::SysInfo* info) { syscall1(Montauk::SYS_GETINFO, (uint64_t)info); } inline void get_info(montauk::abi::SysInfo* info) { syscall1(montauk::abi::SYS_GETINFO, (uint64_t)info); }
// Keyboard // Keyboard
inline bool is_key_available() { return (bool)syscall0(Montauk::SYS_ISKEYAVAILABLE); } inline bool is_key_available() { return (bool)syscall0(montauk::abi::SYS_ISKEYAVAILABLE); }
inline void getkey(Montauk::KeyEvent* out) { syscall1(Montauk::SYS_GETKEY, (uint64_t)out); } inline void getkey(montauk::abi::KeyEvent* out) { syscall1(montauk::abi::SYS_GETKEY, (uint64_t)out); }
inline char getchar() { return (char)syscall0(Montauk::SYS_GETCHAR); } inline char getchar() { return (char)syscall0(montauk::abi::SYS_GETCHAR); }
inline uint64_t input_wait(uint64_t observedSerial, uint64_t timeoutMs) { inline uint64_t input_wait(uint64_t observedSerial, uint64_t timeoutMs) {
return (uint64_t)syscall2(Montauk::SYS_INPUT_WAIT, observedSerial, timeoutMs); return (uint64_t)syscall2(montauk::abi::SYS_INPUT_WAIT, observedSerial, timeoutMs);
} }
// Networking // Networking
inline int32_t ping(uint32_t ip, uint32_t timeoutMs = 3000) { inline int32_t ping(uint32_t ip, uint32_t timeoutMs = 3000) {
return (int32_t)syscall2(Montauk::SYS_PING, (uint64_t)ip, (uint64_t)timeoutMs); return (int32_t)syscall2(montauk::abi::SYS_PING, (uint64_t)ip, (uint64_t)timeoutMs);
} }
// DNS resolve: returns IP in network byte order, or 0 on failure // DNS resolve: returns IP in network byte order, or 0 on failure
inline uint32_t resolve(const char* hostname) { inline uint32_t resolve(const char* hostname) {
return (uint32_t)syscall1(Montauk::SYS_RESOLVE, (uint64_t)hostname); return (uint32_t)syscall1(montauk::abi::SYS_RESOLVE, (uint64_t)hostname);
} }
// Network configuration // Network configuration
inline void get_netcfg(Montauk::NetCfg* out) { syscall1(Montauk::SYS_GETNETCFG, (uint64_t)out); } inline void get_netcfg(montauk::abi::NetCfg* out) { syscall1(montauk::abi::SYS_GETNETCFG, (uint64_t)out); }
inline int set_netcfg(const Montauk::NetCfg* cfg) { return (int)syscall1(Montauk::SYS_SETNETCFG, (uint64_t)cfg); } inline int set_netcfg(const montauk::abi::NetCfg* cfg) { return (int)syscall1(montauk::abi::SYS_SETNETCFG, (uint64_t)cfg); }
inline int net_status(Montauk::NetStatus* out) { return (int)syscall1(Montauk::SYS_NETSTATUS, (uint64_t)out); } inline int net_status(montauk::abi::NetStatus* out) { return (int)syscall1(montauk::abi::SYS_NETSTATUS, (uint64_t)out); }
// Sockets // Sockets
inline int socket(int type) { inline int socket(int type) {
return (int)syscall1(Montauk::SYS_SOCKET, (uint64_t)type); return (int)syscall1(montauk::abi::SYS_SOCKET, (uint64_t)type);
} }
inline int connect(int fd, uint32_t ip, uint16_t port) { inline int connect(int fd, uint32_t ip, uint16_t port) {
return (int)syscall3(Montauk::SYS_CONNECT, (uint64_t)fd, (uint64_t)ip, (uint64_t)port); return (int)syscall3(montauk::abi::SYS_CONNECT, (uint64_t)fd, (uint64_t)ip, (uint64_t)port);
} }
inline int bind(int fd, uint16_t port) { inline int bind(int fd, uint16_t port) {
return (int)syscall2(Montauk::SYS_BIND, (uint64_t)fd, (uint64_t)port); return (int)syscall2(montauk::abi::SYS_BIND, (uint64_t)fd, (uint64_t)port);
} }
inline int listen(int fd) { inline int listen(int fd) {
return (int)syscall1(Montauk::SYS_LISTEN, (uint64_t)fd); return (int)syscall1(montauk::abi::SYS_LISTEN, (uint64_t)fd);
} }
inline int accept(int fd) { inline int accept(int fd) {
return (int)syscall1(Montauk::SYS_ACCEPT, (uint64_t)fd); return (int)syscall1(montauk::abi::SYS_ACCEPT, (uint64_t)fd);
} }
inline int send(int fd, const void* data, uint32_t len) { inline int send(int fd, const void* data, uint32_t len) {
return (int)syscall3(Montauk::SYS_SEND, (uint64_t)fd, (uint64_t)data, (uint64_t)len); return (int)syscall3(montauk::abi::SYS_SEND, (uint64_t)fd, (uint64_t)data, (uint64_t)len);
} }
inline int recv(int fd, void* buf, uint32_t maxLen) { inline int recv(int fd, void* buf, uint32_t maxLen) {
return (int)syscall3(Montauk::SYS_RECV, (uint64_t)fd, (uint64_t)buf, (uint64_t)maxLen); return (int)syscall3(montauk::abi::SYS_RECV, (uint64_t)fd, (uint64_t)buf, (uint64_t)maxLen);
} }
inline int closesocket(int fd) { inline int closesocket(int fd) {
return (int)syscall1(Montauk::SYS_CLOSESOCK, (uint64_t)fd); return (int)syscall1(montauk::abi::SYS_CLOSESOCK, (uint64_t)fd);
} }
inline int sendto(int fd, const void* data, uint32_t len, uint32_t destIp, uint16_t destPort) { inline int sendto(int fd, const void* data, uint32_t len, uint32_t destIp, uint16_t destPort) {
return (int)syscall5(Montauk::SYS_SENDTO, (uint64_t)fd, (uint64_t)data, return (int)syscall5(montauk::abi::SYS_SENDTO, (uint64_t)fd, (uint64_t)data,
(uint64_t)len, (uint64_t)destIp, (uint64_t)destPort); (uint64_t)len, (uint64_t)destIp, (uint64_t)destPort);
} }
inline int recvfrom(int fd, void* buf, uint32_t maxLen, uint32_t* srcIp, uint16_t* srcPort) { inline int recvfrom(int fd, void* buf, uint32_t maxLen, uint32_t* srcIp, uint16_t* srcPort) {
return (int)syscall5(Montauk::SYS_RECVFROM, (uint64_t)fd, (uint64_t)buf, return (int)syscall5(montauk::abi::SYS_RECVFROM, (uint64_t)fd, (uint64_t)buf,
(uint64_t)maxLen, (uint64_t)srcIp, (uint64_t)srcPort); (uint64_t)maxLen, (uint64_t)srcIp, (uint64_t)srcPort);
} }
// Generic IPC // Generic IPC
inline int dup_handle(int handle) { inline int dup_handle(int handle) {
return (int)syscall1(Montauk::SYS_DUPHANDLE, (uint64_t)handle); return (int)syscall1(montauk::abi::SYS_DUPHANDLE, (uint64_t)handle);
} }
inline uint32_t wait_handle(int handle, uint32_t wantedSignals, uint64_t timeoutMs = ~0ULL) { inline uint32_t wait_handle(int handle, uint32_t wantedSignals, uint64_t timeoutMs = ~0ULL) {
return (uint32_t)syscall3(Montauk::SYS_WAIT_HANDLE, (uint64_t)handle, return (uint32_t)syscall3(montauk::abi::SYS_WAIT_HANDLE, (uint64_t)handle,
(uint64_t)wantedSignals, timeoutMs); (uint64_t)wantedSignals, timeoutMs);
} }
inline int stream_create(int* outReadHandle, int* outWriteHandle, uint32_t capacity = 0) { inline int stream_create(int* outReadHandle, int* outWriteHandle, uint32_t capacity = 0) {
return (int)syscall3(Montauk::SYS_STREAM_CREATE, (uint64_t)outReadHandle, return (int)syscall3(montauk::abi::SYS_STREAM_CREATE, (uint64_t)outReadHandle,
(uint64_t)outWriteHandle, (uint64_t)capacity); (uint64_t)outWriteHandle, (uint64_t)capacity);
} }
inline int stream_read(int handle, void* buf, int maxLen) { inline int stream_read(int handle, void* buf, int maxLen) {
return (int)syscall3(Montauk::SYS_STREAM_READ, (uint64_t)handle, (uint64_t)buf, (uint64_t)maxLen); return (int)syscall3(montauk::abi::SYS_STREAM_READ, (uint64_t)handle, (uint64_t)buf, (uint64_t)maxLen);
} }
inline int stream_write(int handle, const void* data, int len) { inline int stream_write(int handle, const void* data, int len) {
return (int)syscall3(Montauk::SYS_STREAM_WRITE, (uint64_t)handle, (uint64_t)data, (uint64_t)len); return (int)syscall3(montauk::abi::SYS_STREAM_WRITE, (uint64_t)handle, (uint64_t)data, (uint64_t)len);
} }
inline int mailbox_create(int* outSendHandle, int* outRecvHandle) { inline int mailbox_create(int* outSendHandle, int* outRecvHandle) {
return (int)syscall2(Montauk::SYS_MAILBOX_CREATE, (uint64_t)outSendHandle, (uint64_t)outRecvHandle); return (int)syscall2(montauk::abi::SYS_MAILBOX_CREATE, (uint64_t)outSendHandle, (uint64_t)outRecvHandle);
} }
inline int mailbox_send(int handle, uint32_t msgType, const void* data, uint16_t len, int attachHandle = -1) { inline int mailbox_send(int handle, uint32_t msgType, const void* data, uint16_t len, int attachHandle = -1) {
return (int)syscall5(Montauk::SYS_MAILBOX_SEND, (uint64_t)handle, (uint64_t)msgType, return (int)syscall5(montauk::abi::SYS_MAILBOX_SEND, (uint64_t)handle, (uint64_t)msgType,
(uint64_t)data, (uint64_t)len, (uint64_t)(int64_t)attachHandle); (uint64_t)data, (uint64_t)len, (uint64_t)(int64_t)attachHandle);
} }
inline int mailbox_recv(int handle, uint32_t* outMsgType, void* data, inline int mailbox_recv(int handle, uint32_t* outMsgType, void* data,
uint16_t* inOutLen, int* outAttachHandle = nullptr) { uint16_t* inOutLen, int* outAttachHandle = nullptr) {
return (int)syscall5(Montauk::SYS_MAILBOX_RECV, (uint64_t)handle, (uint64_t)outMsgType, return (int)syscall5(montauk::abi::SYS_MAILBOX_RECV, (uint64_t)handle, (uint64_t)outMsgType,
(uint64_t)data, (uint64_t)inOutLen, (uint64_t)outAttachHandle); (uint64_t)data, (uint64_t)inOutLen, (uint64_t)outAttachHandle);
} }
inline int waitset_create() { inline int waitset_create() {
return (int)syscall0(Montauk::SYS_WAITSET_CREATE); return (int)syscall0(montauk::abi::SYS_WAITSET_CREATE);
} }
inline int waitset_add(int waitsetHandle, int targetHandle, uint32_t signals) { inline int waitset_add(int waitsetHandle, int targetHandle, uint32_t signals) {
return (int)syscall3(Montauk::SYS_WAITSET_ADD, (uint64_t)waitsetHandle, return (int)syscall3(montauk::abi::SYS_WAITSET_ADD, (uint64_t)waitsetHandle,
(uint64_t)targetHandle, (uint64_t)signals); (uint64_t)targetHandle, (uint64_t)signals);
} }
inline int waitset_remove(int waitsetHandle, int index) { inline int waitset_remove(int waitsetHandle, int index) {
return (int)syscall2(Montauk::SYS_WAITSET_REMOVE, (uint64_t)waitsetHandle, (uint64_t)index); return (int)syscall2(montauk::abi::SYS_WAITSET_REMOVE, (uint64_t)waitsetHandle, (uint64_t)index);
} }
inline int waitset_wait(int waitsetHandle, Montauk::IpcWaitResult* outReady, uint64_t timeoutMs = ~0ULL) { inline int waitset_wait(int waitsetHandle, montauk::abi::IpcWaitResult* outReady, uint64_t timeoutMs = ~0ULL) {
return (int)syscall3(Montauk::SYS_WAITSET_WAIT, (uint64_t)waitsetHandle, (uint64_t)outReady, timeoutMs); return (int)syscall3(montauk::abi::SYS_WAITSET_WAIT, (uint64_t)waitsetHandle, (uint64_t)outReady, timeoutMs);
} }
inline int proc_open(int pid) { inline int proc_open(int pid) {
return (int)syscall1(Montauk::SYS_PROC_OPEN, (uint64_t)pid); return (int)syscall1(montauk::abi::SYS_PROC_OPEN, (uint64_t)pid);
} }
inline int surface_create(uint64_t byteSize) { inline int surface_create(uint64_t byteSize) {
return (int)syscall1(Montauk::SYS_SURFACE_CREATE, byteSize); return (int)syscall1(montauk::abi::SYS_SURFACE_CREATE, byteSize);
} }
inline void* surface_map(int handle) { inline void* surface_map(int handle) {
return (void*)syscall1(Montauk::SYS_SURFACE_MAP, (uint64_t)handle); return (void*)syscall1(montauk::abi::SYS_SURFACE_MAP, (uint64_t)handle);
} }
inline int surface_resize(int handle, uint64_t newSize) { inline int surface_resize(int handle, uint64_t newSize) {
return (int)syscall2(Montauk::SYS_SURFACE_RESIZE, (uint64_t)handle, newSize); return (int)syscall2(montauk::abi::SYS_SURFACE_RESIZE, (uint64_t)handle, newSize);
} }
// Shared library support // Shared library support
inline int load_lib(const char* path) { inline int load_lib(const char* path) {
return (int)syscall1(Montauk::SYS_LOAD_LIB, (uint64_t)path); return (int)syscall1(montauk::abi::SYS_LOAD_LIB, (uint64_t)path);
} }
inline int unload_lib(int handle) { inline int unload_lib(int handle) {
return (int)syscall1(Montauk::SYS_UNLOAD_LIB, (uint64_t)handle); return (int)syscall1(montauk::abi::SYS_UNLOAD_LIB, (uint64_t)handle);
} }
inline void* dlsym(int handle, uint64_t symbolOffset) { inline void* dlsym(int handle, uint64_t symbolOffset) {
return (void*)syscall2(Montauk::SYS_DLSYM, (uint64_t)handle, symbolOffset); return (void*)syscall2(montauk::abi::SYS_DLSYM, (uint64_t)handle, symbolOffset);
} }
inline uint64_t get_libbase(int handle) { inline uint64_t get_libbase(int handle) {
return (uint64_t)syscall1(Montauk::SYS_GETLIBBASE, (uint64_t)handle); return (uint64_t)syscall1(montauk::abi::SYS_GETLIBBASE, (uint64_t)handle);
} }
// Crash report retrieval // Crash report retrieval
inline int crash_report(Montauk::CrashReportInfo* out) { inline int crash_report(montauk::abi::CrashReportInfo* out) {
return (int)syscall1(Montauk::SYS_CRASH_REPORT, (uint64_t)out); return (int)syscall1(montauk::abi::SYS_CRASH_REPORT, (uint64_t)out);
} }
// Process management // Process management
inline void waitpid(int pid) { syscall1(Montauk::SYS_WAITPID, (uint64_t)pid); } inline void waitpid(int pid) { syscall1(montauk::abi::SYS_WAITPID, (uint64_t)pid); }
// Framebuffer // Framebuffer
inline void fb_info(Montauk::FbInfo* info) { syscall1(Montauk::SYS_FBINFO, (uint64_t)info); } inline void fb_info(montauk::abi::FbInfo* info) { syscall1(montauk::abi::SYS_FBINFO, (uint64_t)info); }
inline void* fb_map() { return (void*)syscall0(Montauk::SYS_FBMAP); } inline void* fb_map() { return (void*)syscall0(montauk::abi::SYS_FBMAP); }
// Arguments // Arguments
inline int getargs(char* buf, uint64_t maxLen) { inline int getargs(char* buf, uint64_t maxLen) {
return (int)syscall2(Montauk::SYS_GETARGS, (uint64_t)buf, maxLen); return (int)syscall2(montauk::abi::SYS_GETARGS, (uint64_t)buf, maxLen);
} }
// Terminal // Terminal
inline void termsize(int* cols, int* rows) { inline void termsize(int* cols, int* rows) {
uint64_t r = (uint64_t)syscall0(Montauk::SYS_TERMSIZE); uint64_t r = (uint64_t)syscall0(montauk::abi::SYS_TERMSIZE);
if (cols) *cols = (int)(r & 0xFFFFFFFF); if (cols) *cols = (int)(r & 0xFFFFFFFF);
if (rows) *rows = (int)(r >> 32); if (rows) *rows = (int)(r >> 32);
} }
inline void termscale(int scale_x, int scale_y) { inline void termscale(int scale_x, int scale_y) {
syscall2(Montauk::SYS_TERMSCALE, (uint64_t)scale_x, (uint64_t)scale_y); syscall2(montauk::abi::SYS_TERMSCALE, (uint64_t)scale_x, (uint64_t)scale_y);
} }
inline void get_termscale(int* scale_x, int* scale_y) { inline void get_termscale(int* scale_x, int* scale_y) {
uint64_t r = (uint64_t)syscall2(Montauk::SYS_TERMSCALE, 0, 0); uint64_t r = (uint64_t)syscall2(montauk::abi::SYS_TERMSCALE, 0, 0);
if (scale_x) *scale_x = (int)(r & 0xFFFFFFFF); if (scale_x) *scale_x = (int)(r & 0xFFFFFFFF);
if (scale_y) *scale_y = (int)(r >> 32); if (scale_y) *scale_y = (int)(r >> 32);
} }
// Timekeeping (wall-clock) // Timekeeping (wall-clock)
inline void gettime(Montauk::DateTime* out) { syscall1(Montauk::SYS_GETTIME, (uint64_t)out); } inline void gettime(montauk::abi::DateTime* out) { syscall1(montauk::abi::SYS_GETTIME, (uint64_t)out); }
// Timezone offset (total minutes from UTC) // Timezone offset (total minutes from UTC)
inline void settz(int offset_minutes) { syscall1(Montauk::SYS_SETTZ, (uint64_t)(int64_t)offset_minutes); } inline void settz(int offset_minutes) { syscall1(montauk::abi::SYS_SETTZ, (uint64_t)(int64_t)offset_minutes); }
inline int gettz() { return (int)syscall0(Montauk::SYS_GETTZ); } inline int gettz() { return (int)syscall0(montauk::abi::SYS_GETTZ); }
// Random number generation // Random number generation
inline int64_t getrandom(void* buf, uint32_t len) { inline int64_t getrandom(void* buf, uint32_t len) {
return syscall2(Montauk::SYS_GETRANDOM, (uint64_t)buf, (uint64_t)len); return syscall2(montauk::abi::SYS_GETRANDOM, (uint64_t)buf, (uint64_t)len);
} }
// Power management // Power management
[[noreturn]] inline void reset() { [[noreturn]] inline void reset() {
syscall0(Montauk::SYS_RESET); syscall0(montauk::abi::SYS_RESET);
__builtin_unreachable(); __builtin_unreachable();
} }
[[noreturn]] inline void shutdown() { [[noreturn]] inline void shutdown() {
syscall0(Montauk::SYS_SHUTDOWN); syscall0(montauk::abi::SYS_SHUTDOWN);
__builtin_unreachable(); __builtin_unreachable();
} }
inline int suspend() { inline int suspend() {
return (int)syscall0(Montauk::SYS_SUSPEND); return (int)syscall0(montauk::abi::SYS_SUSPEND);
} }
// Graceful power-off request channel. The desktop posts a pending action // Graceful power-off request channel. The desktop posts a pending action
// (Montauk::POWER_REQ_SHUTDOWN / POWER_REQ_REBOOT) then exits; login.elf // (montauk::abi::POWER_REQ_SHUTDOWN / POWER_REQ_REBOOT) then exits; login.elf
// reads it with POWER_REQ_QUERY (read-and-clear), runs the shutdown stages, // reads it with POWER_REQ_QUERY (read-and-clear), runs the shutdown stages,
// and finally calls shutdown()/reset(). Returns the pending action for a // and finally calls shutdown()/reset(). Returns the pending action for a
// query, or 0 when posting one. // query, or 0 when posting one.
inline int power_request(int action) { inline int power_request(int action) {
return (int)syscall1(Montauk::SYS_POWER_REQUEST, (uint64_t)(int64_t)action); return (int)syscall1(montauk::abi::SYS_POWER_REQUEST, (uint64_t)(int64_t)action);
} }
// Mouse // Mouse
inline void mouse_state(Montauk::MouseState* out) { syscall1(Montauk::SYS_MOUSESTATE, (uint64_t)out); } inline void mouse_state(montauk::abi::MouseState* out) { syscall1(montauk::abi::SYS_MOUSESTATE, (uint64_t)out); }
inline void set_mouse_bounds(int32_t maxX, int32_t maxY) { inline void set_mouse_bounds(int32_t maxX, int32_t maxY) {
syscall2(Montauk::SYS_SETMOUSEBOUNDS, (uint64_t)maxX, (uint64_t)maxY); syscall2(montauk::abi::SYS_SETMOUSEBOUNDS, (uint64_t)maxX, (uint64_t)maxY);
} }
// Kernel log // Kernel log
inline int64_t read_klog(char* buf, uint64_t size) { inline int64_t read_klog(char* buf, uint64_t size) {
return syscall2(Montauk::SYS_KLOG, (uint64_t)buf, size); return syscall2(montauk::abi::SYS_KLOG, (uint64_t)buf, size);
} }
// I/O redirection // I/O redirection
inline int spawn_redir(const char* path, const char* args = nullptr) { inline int spawn_redir(const char* path, const char* args = nullptr) {
return (int)syscall2(Montauk::SYS_SPAWN_REDIR, (uint64_t)path, (uint64_t)args); return (int)syscall2(montauk::abi::SYS_SPAWN_REDIR, (uint64_t)path, (uint64_t)args);
} }
inline int childio_read(int childPid, char* buf, int maxLen) { inline int childio_read(int childPid, char* buf, int maxLen) {
return (int)syscall3(Montauk::SYS_CHILDIO_READ, (uint64_t)childPid, (uint64_t)buf, (uint64_t)maxLen); return (int)syscall3(montauk::abi::SYS_CHILDIO_READ, (uint64_t)childPid, (uint64_t)buf, (uint64_t)maxLen);
} }
inline int childio_write(int childPid, const char* data, int len) { inline int childio_write(int childPid, const char* data, int len) {
return (int)syscall3(Montauk::SYS_CHILDIO_WRITE, (uint64_t)childPid, (uint64_t)data, (uint64_t)len); return (int)syscall3(montauk::abi::SYS_CHILDIO_WRITE, (uint64_t)childPid, (uint64_t)data, (uint64_t)len);
} }
inline int childio_writekey(int childPid, const Montauk::KeyEvent* key) { inline int childio_writekey(int childPid, const montauk::abi::KeyEvent* key) {
return (int)syscall2(Montauk::SYS_CHILDIO_WRITEKEY, (uint64_t)childPid, (uint64_t)key); return (int)syscall2(montauk::abi::SYS_CHILDIO_WRITEKEY, (uint64_t)childPid, (uint64_t)key);
} }
inline int childio_settermsz(int childPid, int cols, int rows) { inline int childio_settermsz(int childPid, int cols, int rows) {
return (int)syscall3(Montauk::SYS_CHILDIO_SETTERMSZ, (uint64_t)childPid, (uint64_t)cols, (uint64_t)rows); return (int)syscall3(montauk::abi::SYS_CHILDIO_SETTERMSZ, (uint64_t)childPid, (uint64_t)cols, (uint64_t)rows);
} }
// Process listing / kill // Process listing / kill
inline int proclist(Montauk::ProcInfo* buf, int max) { inline int proclist(montauk::abi::ProcInfo* buf, int max) {
return (int)syscall2(Montauk::SYS_PROCLIST, (uint64_t)buf, (uint64_t)max); return (int)syscall2(montauk::abi::SYS_PROCLIST, (uint64_t)buf, (uint64_t)max);
} }
inline int kill(int pid) { inline int kill(int pid) {
return (int)syscall1(Montauk::SYS_KILL, (uint64_t)pid); return (int)syscall1(montauk::abi::SYS_KILL, (uint64_t)pid);
} }
inline int devlist(Montauk::DevInfo* buf, int max) { inline int devlist(montauk::abi::DevInfo* buf, int max) {
return (int)syscall2(Montauk::SYS_DEVLIST, (uint64_t)buf, (uint64_t)max); return (int)syscall2(montauk::abi::SYS_DEVLIST, (uint64_t)buf, (uint64_t)max);
} }
inline int diskinfo(Montauk::DiskInfo* buf, int port) { inline int diskinfo(montauk::abi::DiskInfo* buf, int port) {
return (int)syscall2(Montauk::SYS_DISKINFO, (uint64_t)buf, (uint64_t)port); return (int)syscall2(montauk::abi::SYS_DISKINFO, (uint64_t)buf, (uint64_t)port);
} }
// Partition table // Partition table
inline int partlist(Montauk::PartInfo* buf, int max) { inline int partlist(montauk::abi::PartInfo* buf, int max) {
return (int)syscall2(Montauk::SYS_PARTLIST, (uint64_t)buf, (uint64_t)max); return (int)syscall2(montauk::abi::SYS_PARTLIST, (uint64_t)buf, (uint64_t)max);
} }
// Raw block device I/O (driver-agnostic) // Raw block device I/O (driver-agnostic)
inline int64_t disk_read(int blockDev, uint64_t lba, uint32_t sectorCount, void* buf) { inline int64_t disk_read(int blockDev, uint64_t lba, uint32_t sectorCount, void* buf) {
return syscall4(Montauk::SYS_DISKREAD, (uint64_t)blockDev, lba, return syscall4(montauk::abi::SYS_DISKREAD, (uint64_t)blockDev, lba,
(uint64_t)sectorCount, (uint64_t)buf); (uint64_t)sectorCount, (uint64_t)buf);
} }
inline int64_t disk_write(int blockDev, uint64_t lba, uint32_t sectorCount, const void* buf) { inline int64_t disk_write(int blockDev, uint64_t lba, uint32_t sectorCount, const void* buf) {
return syscall4(Montauk::SYS_DISKWRITE, (uint64_t)blockDev, lba, return syscall4(montauk::abi::SYS_DISKWRITE, (uint64_t)blockDev, lba,
(uint64_t)sectorCount, (uint64_t)buf); (uint64_t)sectorCount, (uint64_t)buf);
} }
// GPT management // GPT management
inline int gpt_init(int blockDev) { inline int gpt_init(int blockDev) {
return (int)syscall1(Montauk::SYS_GPTINIT, (uint64_t)blockDev); return (int)syscall1(montauk::abi::SYS_GPTINIT, (uint64_t)blockDev);
} }
inline int gpt_add(const Montauk::GptAddParams* params) { inline int gpt_add(const montauk::abi::GptAddParams* params) {
return (int)syscall1(Montauk::SYS_GPTADD, (uint64_t)params); return (int)syscall1(montauk::abi::SYS_GPTADD, (uint64_t)params);
} }
inline int fs_mount(int partIndex, int driveNum) { inline int fs_mount(int partIndex, int driveNum) {
return (int)syscall2(Montauk::SYS_FSMOUNT, (uint64_t)partIndex, (uint64_t)driveNum); return (int)syscall2(montauk::abi::SYS_FSMOUNT, (uint64_t)partIndex, (uint64_t)driveNum);
} }
// Flush all block-device write caches and cleanly unmount disk-backed // Flush all block-device write caches and cleanly unmount disk-backed
// volumes ahead of power-off. Returns the number of volumes unmounted. // volumes ahead of power-off. Returns the number of volumes unmounted.
inline int fs_sync() { inline int fs_sync() {
return (int)syscall0(Montauk::SYS_FS_SYNC); return (int)syscall0(montauk::abi::SYS_FS_SYNC);
} }
inline int fs_format(const Montauk::FsFormatParams* params) { inline int fs_format(const montauk::abi::FsFormatParams* params) {
return (int)syscall1(Montauk::SYS_FSFORMAT, (uint64_t)params); return (int)syscall1(montauk::abi::SYS_FSFORMAT, (uint64_t)params);
} }
// Audio // Audio
inline int audio_open(uint32_t sampleRate, uint8_t channels, uint8_t bitsPerSample) { inline int audio_open(uint32_t sampleRate, uint8_t channels, uint8_t bitsPerSample) {
return (int)syscall3(Montauk::SYS_AUDIOOPEN, (uint64_t)sampleRate, return (int)syscall3(montauk::abi::SYS_AUDIOOPEN, (uint64_t)sampleRate,
(uint64_t)channels, (uint64_t)bitsPerSample); (uint64_t)channels, (uint64_t)bitsPerSample);
} }
inline void audio_close(int handle) { inline void audio_close(int handle) {
syscall1(Montauk::SYS_AUDIOCLOSE, (uint64_t)handle); syscall1(montauk::abi::SYS_AUDIOCLOSE, (uint64_t)handle);
} }
inline int audio_write(int handle, const void* data, uint32_t size) { inline int audio_write(int handle, const void* data, uint32_t size) {
return (int)syscall3(Montauk::SYS_AUDIOWRITE, (uint64_t)handle, return (int)syscall3(montauk::abi::SYS_AUDIOWRITE, (uint64_t)handle,
(uint64_t)data, (uint64_t)size); (uint64_t)data, (uint64_t)size);
} }
inline int audio_ctl(int handle, int cmd, int value) { inline int audio_ctl(int handle, int cmd, int value) {
return (int)syscall3(Montauk::SYS_AUDIOCTL, (uint64_t)handle, return (int)syscall3(montauk::abi::SYS_AUDIOCTL, (uint64_t)handle,
(uint64_t)cmd, (uint64_t)value); (uint64_t)cmd, (uint64_t)value);
} }
inline int audio_set_volume(int handle, int percent) { inline int audio_set_volume(int handle, int percent) {
return audio_ctl(handle, Montauk::AUDIO_CTL_SET_VOLUME, percent); return audio_ctl(handle, montauk::abi::AUDIO_CTL_SET_VOLUME, percent);
} }
inline int audio_get_volume(int handle) { inline int audio_get_volume(int handle) {
return audio_ctl(handle, Montauk::AUDIO_CTL_GET_VOLUME, 0); return audio_ctl(handle, montauk::abi::AUDIO_CTL_GET_VOLUME, 0);
} }
inline int audio_get_pos(int handle) { inline int audio_get_pos(int handle) {
return audio_ctl(handle, Montauk::AUDIO_CTL_GET_POS, 0); return audio_ctl(handle, montauk::abi::AUDIO_CTL_GET_POS, 0);
} }
inline int audio_pause(int handle) { inline int audio_pause(int handle) {
return audio_ctl(handle, Montauk::AUDIO_CTL_PAUSE, 1); return audio_ctl(handle, montauk::abi::AUDIO_CTL_PAUSE, 1);
} }
inline int audio_resume(int handle) { inline int audio_resume(int handle) {
return audio_ctl(handle, Montauk::AUDIO_CTL_PAUSE, 0); return audio_ctl(handle, montauk::abi::AUDIO_CTL_PAUSE, 0);
} }
inline int audio_get_output(int handle) { inline int audio_get_output(int handle) {
return audio_ctl(handle, Montauk::AUDIO_CTL_GET_OUTPUT, 0); return audio_ctl(handle, montauk::abi::AUDIO_CTL_GET_OUTPUT, 0);
} }
inline int audio_bt_status(int handle) { inline int audio_bt_status(int handle) {
return audio_ctl(handle, Montauk::AUDIO_CTL_BT_STATUS, 0); return audio_ctl(handle, montauk::abi::AUDIO_CTL_BT_STATUS, 0);
} }
inline int audio_set_master_volume(int percent) { inline int audio_set_master_volume(int percent) {
return audio_ctl(-1, Montauk::AUDIO_CTL_SET_MASTER_VOLUME, percent); return audio_ctl(-1, montauk::abi::AUDIO_CTL_SET_MASTER_VOLUME, percent);
} }
inline int audio_get_master_volume() { inline int audio_get_master_volume() {
return audio_ctl(-1, Montauk::AUDIO_CTL_GET_MASTER_VOLUME, 0); return audio_ctl(-1, montauk::abi::AUDIO_CTL_GET_MASTER_VOLUME, 0);
} }
inline int audio_set_master_mute(bool muted) { inline int audio_set_master_mute(bool muted) {
return audio_ctl(-1, Montauk::AUDIO_CTL_SET_MASTER_MUTE, muted ? 1 : 0); return audio_ctl(-1, montauk::abi::AUDIO_CTL_SET_MASTER_MUTE, muted ? 1 : 0);
} }
inline int audio_get_master_mute() { inline int audio_get_master_mute() {
return audio_ctl(-1, Montauk::AUDIO_CTL_GET_MASTER_MUTE, 0); return audio_ctl(-1, montauk::abi::AUDIO_CTL_GET_MASTER_MUTE, 0);
} }
inline int audio_set_mute(int handle, bool muted) { inline int audio_set_mute(int handle, bool muted) {
return audio_ctl(handle, Montauk::AUDIO_CTL_SET_MUTE, muted ? 1 : 0); return audio_ctl(handle, montauk::abi::AUDIO_CTL_SET_MUTE, muted ? 1 : 0);
} }
inline int audio_get_mute(int handle) { inline int audio_get_mute(int handle) {
return audio_ctl(handle, Montauk::AUDIO_CTL_GET_MUTE, 0); return audio_ctl(handle, montauk::abi::AUDIO_CTL_GET_MUTE, 0);
} }
inline int audio_list(Montauk::AudioStreamInfo* buf, int maxCount) { inline int audio_list(montauk::abi::AudioStreamInfo* buf, int maxCount) {
return (int)syscall2(Montauk::SYS_AUDIOLIST, (uint64_t)buf, (uint64_t)maxCount); return (int)syscall2(montauk::abi::SYS_AUDIOLIST, (uint64_t)buf, (uint64_t)maxCount);
} }
// Returns the current mixer state serial. With timeoutMs > 0 the call // Returns the current mixer state serial. With timeoutMs > 0 the call
// blocks until the serial differs from `prevSerial` or the timeout // blocks until the serial differs from `prevSerial` or the timeout
// elapses. With timeoutMs == 0 it returns immediately (cheap snapshot). // elapses. With timeoutMs == 0 it returns immediately (cheap snapshot).
inline uint64_t audio_wait(uint64_t prevSerial, uint64_t timeoutMs) { inline uint64_t audio_wait(uint64_t prevSerial, uint64_t timeoutMs) {
return syscall2(Montauk::SYS_AUDIOWAIT, prevSerial, timeoutMs); return syscall2(montauk::abi::SYS_AUDIOWAIT, prevSerial, timeoutMs);
} }
// Bluetooth // Bluetooth
inline int bt_scan(Montauk::BtScanResult* buf, int maxCount, uint32_t timeoutMs) { inline int bt_scan(montauk::abi::BtScanResult* buf, int maxCount, uint32_t timeoutMs) {
return (int)syscall3(Montauk::SYS_BTSCAN, (uint64_t)buf, (uint64_t)maxCount, (uint64_t)timeoutMs); return (int)syscall3(montauk::abi::SYS_BTSCAN, (uint64_t)buf, (uint64_t)maxCount, (uint64_t)timeoutMs);
} }
inline int bt_connect(const uint8_t* bdAddr) { inline int bt_connect(const uint8_t* bdAddr) {
return (int)syscall1(Montauk::SYS_BTCONNECT, (uint64_t)bdAddr); return (int)syscall1(montauk::abi::SYS_BTCONNECT, (uint64_t)bdAddr);
} }
inline int bt_disconnect(const uint8_t* bdAddr) { inline int bt_disconnect(const uint8_t* bdAddr) {
return (int)syscall1(Montauk::SYS_BTDISCONNECT, (uint64_t)bdAddr); return (int)syscall1(montauk::abi::SYS_BTDISCONNECT, (uint64_t)bdAddr);
} }
// Change the adapter's BD_ADDR. bdAddr is a 6-byte buffer with bdAddr[0] as // Change the adapter's BD_ADDR. bdAddr is a 6-byte buffer with bdAddr[0] as
// the least-significant octet (same order as BtAdapterInfo::bdAddr). Returns // the least-significant octet (same order as BtAdapterInfo::bdAddr). Returns
// 0 on success, negative on failure. Persist separately to bluetooth.toml. // 0 on success, negative on failure. Persist separately to bluetooth.toml.
inline int bt_set_addr(const uint8_t* bdAddr) { inline int bt_set_addr(const uint8_t* bdAddr) {
return (int)syscall1(Montauk::SYS_BTSETADDR, (uint64_t)bdAddr); return (int)syscall1(montauk::abi::SYS_BTSETADDR, (uint64_t)bdAddr);
} }
// List bonded (paired) devices. Returns count written to buf (may be 0). // List bonded (paired) devices. Returns count written to buf (may be 0).
inline int bt_bonds(Montauk::BtBondInfo* buf, int maxCount) { inline int bt_bonds(montauk::abi::BtBondInfo* buf, int maxCount) {
return (int)syscall2(Montauk::SYS_BTBONDS, (uint64_t)buf, (uint64_t)maxCount); return (int)syscall2(montauk::abi::SYS_BTBONDS, (uint64_t)buf, (uint64_t)maxCount);
} }
// Forget a paired device (removes the bond; it must re-pair next time). // Forget a paired device (removes the bond; it must re-pair next time).
inline int bt_forget(const uint8_t* bdAddr) { inline int bt_forget(const uint8_t* bdAddr) {
return (int)syscall1(Montauk::SYS_BTFORGET, (uint64_t)bdAddr); return (int)syscall1(montauk::abi::SYS_BTFORGET, (uint64_t)bdAddr);
} }
inline int bt_list(Montauk::BtDevInfo* buf, int maxCount) { inline int bt_list(montauk::abi::BtDevInfo* buf, int maxCount) {
return (int)syscall2(Montauk::SYS_BTLIST, (uint64_t)buf, (uint64_t)maxCount); return (int)syscall2(montauk::abi::SYS_BTLIST, (uint64_t)buf, (uint64_t)maxCount);
} }
inline int bt_info(Montauk::BtAdapterInfo* buf) { inline int bt_info(montauk::abi::BtAdapterInfo* buf) {
return (int)syscall1(Montauk::SYS_BTINFO, (uint64_t)buf); return (int)syscall1(montauk::abi::SYS_BTINFO, (uint64_t)buf);
} }
// Kernel introspection // Kernel introspection
inline void memstats(Montauk::MemStats* out) { syscall1(Montauk::SYS_MEMSTATS, (uint64_t)out); } inline void memstats(montauk::abi::MemStats* out) { syscall1(montauk::abi::SYS_MEMSTATS, (uint64_t)out); }
// User management // User management
inline int setuser(int pid, const char* name) { inline int setuser(int pid, const char* name) {
return (int)syscall2(Montauk::SYS_SETUSER, (uint64_t)pid, (uint64_t)name); return (int)syscall2(montauk::abi::SYS_SETUSER, (uint64_t)pid, (uint64_t)name);
} }
inline int getuser(char* buf, uint64_t maxLen) { inline int getuser(char* buf, uint64_t maxLen) {
return (int)syscall2(Montauk::SYS_GETUSER, (uint64_t)buf, maxLen); return (int)syscall2(montauk::abi::SYS_GETUSER, (uint64_t)buf, maxLen);
} }
// Clipboard // Clipboard
inline int clipboard_set_text(const char* data, uint32_t len) { inline int clipboard_set_text(const char* data, uint32_t len) {
return (int)syscall2(Montauk::SYS_CLIPBOARD_SET_TEXT, (uint64_t)data, (uint64_t)len); return (int)syscall2(montauk::abi::SYS_CLIPBOARD_SET_TEXT, (uint64_t)data, (uint64_t)len);
} }
inline int clipboard_get_info(Montauk::ClipboardInfo* out) { inline int clipboard_get_info(montauk::abi::ClipboardInfo* out) {
return (int)syscall1(Montauk::SYS_CLIPBOARD_GET_INFO, (uint64_t)out); return (int)syscall1(montauk::abi::SYS_CLIPBOARD_GET_INFO, (uint64_t)out);
} }
inline int clipboard_get_text(char* buf, uint32_t bufLen, uint32_t* outLen, inline int clipboard_get_text(char* buf, uint32_t bufLen, uint32_t* outLen,
uint64_t* outSerial = nullptr) { uint64_t* outSerial = nullptr) {
return (int)syscall4(Montauk::SYS_CLIPBOARD_GET_TEXT, (uint64_t)buf, (uint64_t)bufLen, return (int)syscall4(montauk::abi::SYS_CLIPBOARD_GET_TEXT, (uint64_t)buf, (uint64_t)bufLen,
(uint64_t)outLen, (uint64_t)outSerial); (uint64_t)outLen, (uint64_t)outSerial);
} }
inline int clipboard_clear() { inline int clipboard_clear() {
return (int)syscall0(Montauk::SYS_CLIPBOARD_CLEAR); return (int)syscall0(montauk::abi::SYS_CLIPBOARD_CLEAR);
} }
// Window server // Window server
inline int win_create(const char* title, int w, int h, Montauk::WinCreateResult* result) { inline int win_create(const char* title, int w, int h, montauk::abi::WinCreateResult* result) {
return (int)syscall4(Montauk::SYS_WINCREATE, (uint64_t)title, (uint64_t)w, (uint64_t)h, (uint64_t)result); return (int)syscall4(montauk::abi::SYS_WINCREATE, (uint64_t)title, (uint64_t)w, (uint64_t)h, (uint64_t)result);
} }
inline int win_destroy(int id) { inline int win_destroy(int id) {
return (int)syscall1(Montauk::SYS_WINDESTROY, (uint64_t)id); return (int)syscall1(montauk::abi::SYS_WINDESTROY, (uint64_t)id);
} }
inline uint64_t win_present(int id) { inline uint64_t win_present(int id) {
return (uint64_t)syscall1(Montauk::SYS_WINPRESENT, (uint64_t)id); return (uint64_t)syscall1(montauk::abi::SYS_WINPRESENT, (uint64_t)id);
} }
inline int win_poll(int id, Montauk::WinEvent* event) { inline int win_poll(int id, montauk::abi::WinEvent* event) {
return (int)syscall2(Montauk::SYS_WINPOLL, (uint64_t)id, (uint64_t)event); return (int)syscall2(montauk::abi::SYS_WINPOLL, (uint64_t)id, (uint64_t)event);
} }
inline int win_enumerate(Montauk::WinInfo* info, int max) { inline int win_enumerate(montauk::abi::WinInfo* info, int max) {
return (int)syscall2(Montauk::SYS_WINENUM, (uint64_t)info, (uint64_t)max); return (int)syscall2(montauk::abi::SYS_WINENUM, (uint64_t)info, (uint64_t)max);
} }
inline uint64_t win_map(int id) { inline uint64_t win_map(int id) {
return (uint64_t)syscall1(Montauk::SYS_WINMAP, (uint64_t)id); return (uint64_t)syscall1(montauk::abi::SYS_WINMAP, (uint64_t)id);
} }
inline int win_unmap(int id) { inline int win_unmap(int id) {
return (int)syscall1(Montauk::SYS_WINUNMAP, (uint64_t)id); return (int)syscall1(montauk::abi::SYS_WINUNMAP, (uint64_t)id);
} }
inline int win_sendevent(int id, const Montauk::WinEvent* event) { inline int win_sendevent(int id, const montauk::abi::WinEvent* event) {
return (int)syscall2(Montauk::SYS_WINSENDEVENT, (uint64_t)id, (uint64_t)event); return (int)syscall2(montauk::abi::SYS_WINSENDEVENT, (uint64_t)id, (uint64_t)event);
} }
inline uint64_t win_resize(int id, int w, int h) { inline uint64_t win_resize(int id, int w, int h) {
return (uint64_t)syscall3(Montauk::SYS_WINRESIZE, (uint64_t)id, (uint64_t)w, (uint64_t)h); return (uint64_t)syscall3(montauk::abi::SYS_WINRESIZE, (uint64_t)id, (uint64_t)w, (uint64_t)h);
} }
inline int win_setscale(int scale) { inline int win_setscale(int scale) {
return (int)syscall1(Montauk::SYS_WINSETSCALE, (uint64_t)scale); return (int)syscall1(montauk::abi::SYS_WINSETSCALE, (uint64_t)scale);
} }
inline int win_getscale() { inline int win_getscale() {
return (int)syscall0(Montauk::SYS_WINGETSCALE); return (int)syscall0(montauk::abi::SYS_WINGETSCALE);
} }
inline int win_setcursor(int id, int cursor) { inline int win_setcursor(int id, int cursor) {
return (int)syscall2(Montauk::SYS_WINSETCURSOR, (uint64_t)id, (uint64_t)cursor); return (int)syscall2(montauk::abi::SYS_WINSETCURSOR, (uint64_t)id, (uint64_t)cursor);
} }
inline int win_setflags(int id, uint32_t flags) { inline int win_setflags(int id, uint32_t flags) {
return (int)syscall2(Montauk::SYS_WINSETFLAGS, (uint64_t)id, (uint64_t)flags); return (int)syscall2(montauk::abi::SYS_WINSETFLAGS, (uint64_t)id, (uint64_t)flags);
} }
} }
+4 -4
View File
@@ -35,7 +35,7 @@ namespace montauk {
// Terminate the calling thread. Never returns. If called by the main // Terminate the calling thread. Never returns. If called by the main
// thread this is equivalent to exit() (the whole process exits). // thread this is equivalent to exit() (the whole process exits).
[[noreturn]] inline void thread_exit(int code = 0) { [[noreturn]] inline void thread_exit(int code = 0) {
syscall1(Montauk::SYS_THREAD_EXIT, (uint64_t)code); syscall1(montauk::abi::SYS_THREAD_EXIT, (uint64_t)code);
__builtin_unreachable(); __builtin_unreachable();
} }
@@ -86,7 +86,7 @@ namespace montauk {
ctx->stack_base = stack; ctx->stack_base = stack;
uint64_t stack_top = ((uint64_t)stack + stack_bytes) & ~0xFULL; uint64_t stack_top = ((uint64_t)stack + stack_bytes) & ~0xFULL;
int tid = (int)syscall3(Montauk::SYS_THREAD_SPAWN, int tid = (int)syscall3(montauk::abi::SYS_THREAD_SPAWN,
(uint64_t)&detail::thread_trampoline, (uint64_t)&detail::thread_trampoline,
(uint64_t)ctx, stack_top); (uint64_t)ctx, stack_top);
if (tid < 0) { if (tid < 0) {
@@ -101,13 +101,13 @@ namespace montauk {
// success (with the thread's exit code in *out_code if non-null) or // success (with the thread's exit code in *out_code if non-null) or
// -1 if `tid` is not a joinable sibling. // -1 if `tid` is not a joinable sibling.
inline int thread_join(int tid, int* out_code = nullptr) { inline int thread_join(int tid, int* out_code = nullptr) {
return (int)syscall2(Montauk::SYS_THREAD_JOIN, return (int)syscall2(montauk::abi::SYS_THREAD_JOIN,
(uint64_t)tid, (uint64_t)out_code); (uint64_t)tid, (uint64_t)out_code);
} }
// Return the calling thread's TID (== getpid() for the main thread). // Return the calling thread's TID (== getpid() for the main thread).
inline int thread_self() { inline int thread_self() {
return (int)syscall0(Montauk::SYS_THREAD_SELF); return (int)syscall0(montauk::abi::SYS_THREAD_SELF);
} }
// Lightweight mutex backed by a single atomic word + the kernel // Lightweight mutex backed by a single atomic word + the kernel
+10 -10
View File
@@ -218,7 +218,7 @@ inline void parse_key_value_lines(char* text, Fn fn) {
inline void now_string(char* out, int out_len) { inline void now_string(char* out, int out_len) {
if (out == nullptr || out_len <= 0) return; if (out == nullptr || out_len <= 0) return;
Montauk::DateTime dt = {}; montauk::abi::DateTime dt = {};
montauk::gettime(&dt); montauk::gettime(&dt);
snprintf(out, (size_t)out_len, "%04d-%02d-%02d %02d:%02d:%02d", snprintf(out, (size_t)out_len, "%04d-%02d-%02d %02d:%02d:%02d",
(int)dt.Year, (int)dt.Month, (int)dt.Day, (int)dt.Year, (int)dt.Month, (int)dt.Day,
@@ -1010,11 +1010,11 @@ inline bool daemon_is_running(int* out_pid) {
int handle = montauk::proc_open(pid); int handle = montauk::proc_open(pid);
if (handle < 0) return false; if (handle < 0) return false;
uint32_t sig = montauk::wait_handle(handle, Montauk::IPC_SIGNAL_EXITED, 0); uint32_t sig = montauk::wait_handle(handle, montauk::abi::IPC_SIGNAL_EXITED, 0);
montauk::close(handle); montauk::close(handle);
if (sig & Montauk::IPC_SIGNAL_EXITED) return false; if (sig & montauk::abi::IPC_SIGNAL_EXITED) return false;
Montauk::ProcInfo procs[128]; montauk::abi::ProcInfo procs[128];
int proc_count = montauk::proclist(procs, (int)(sizeof(procs) / sizeof(procs[0]))); int proc_count = montauk::proclist(procs, (int)(sizeof(procs) / sizeof(procs[0])));
bool matched = false; bool matched = false;
for (int i = 0; i < proc_count; i++) { for (int i = 0; i < proc_count; i++) {
@@ -1289,9 +1289,9 @@ inline int send_all_plain(int fd, const uint8_t* data, int len) {
if (n < 0) return -1; if (n < 0) return -1;
uint32_t sig = montauk::wait_handle(fd, uint32_t sig = montauk::wait_handle(fd,
Montauk::IPC_SIGNAL_WRITABLE | Montauk::IPC_SIGNAL_PEER_CLOSED, montauk::abi::IPC_SIGNAL_WRITABLE | montauk::abi::IPC_SIGNAL_PEER_CLOSED,
1000); 1000);
if (sig & Montauk::IPC_SIGNAL_PEER_CLOSED) return -1; if (sig & montauk::abi::IPC_SIGNAL_PEER_CLOSED) return -1;
if (montauk::get_milliseconds() >= deadline) return -1; if (montauk::get_milliseconds() >= deadline) return -1;
montauk::sleep_ms(1); montauk::sleep_ms(1);
} }
@@ -1379,13 +1379,13 @@ inline int recv_http_plain(int fd, char* buf, int cap) {
if (montauk::get_milliseconds() >= deadline) break; if (montauk::get_milliseconds() >= deadline) break;
uint32_t sig = montauk::wait_handle(fd, uint32_t sig = montauk::wait_handle(fd,
Montauk::IPC_SIGNAL_READABLE | Montauk::IPC_SIGNAL_PEER_CLOSED, montauk::abi::IPC_SIGNAL_READABLE | montauk::abi::IPC_SIGNAL_PEER_CLOSED,
1000); 1000);
if (sig == 0) continue; if (sig == 0) continue;
if (sig & Montauk::IPC_SIGNAL_PEER_CLOSED) if (sig & montauk::abi::IPC_SIGNAL_PEER_CLOSED)
peer_closed = true; peer_closed = true;
if (!(sig & Montauk::IPC_SIGNAL_READABLE)) { if (!(sig & montauk::abi::IPC_SIGNAL_READABLE)) {
if (peer_closed) break; if (peer_closed) break;
continue; continue;
} }
@@ -1525,7 +1525,7 @@ inline bool ipp_http_post(const IppUri* uri,
tas, raw, HTTP_RESPONSE_MAX - 1); tas, raw, HTTP_RESPONSE_MAX - 1);
if (tas.anchors) free(tas.anchors); if (tas.anchors) free(tas.anchors);
} else { } else {
int fd = montauk::socket(Montauk::SOCK_TCP); int fd = montauk::socket(montauk::abi::SOCK_TCP);
if (fd < 0) { if (fd < 0) {
free(raw); free(raw);
free(req); free(req);
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+2 -2
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@@ -147,7 +147,7 @@ TrustAnchors load_trust_anchors() {
} }
void get_bearssl_time(uint32_t* days, uint32_t* seconds) { void get_bearssl_time(uint32_t* days, uint32_t* seconds) {
Montauk::DateTime dt; montauk::abi::DateTime dt;
montauk::gettime(&dt); montauk::gettime(&dt);
int y = dt.Year, m = dt.Month, d = dt.Day; int y = dt.Year, m = dt.Month, d = dt.Day;
uint32_t total = 365u * (uint32_t)y uint32_t total = 365u * (uint32_t)y
@@ -244,7 +244,7 @@ int https_fetch(const char* host, uint32_t ip, uint16_t port,
const TrustAnchors& tas, const TrustAnchors& tas,
char* respBuf, int respMax, char* respBuf, int respMax,
AbortCheckFn abort_check) { AbortCheckFn abort_check) {
int fd = montauk::socket(Montauk::SOCK_TCP); int fd = montauk::socket(montauk::abi::SOCK_TCP);
if (fd < 0) return -1; if (fd < 0) return -1;
if (montauk::connect(fd, ip, port) < 0) { montauk::closesocket(fd); return -1; } if (montauk::connect(fd, ip, port) < 0) { montauk::closesocket(fd); return -1; }
+2 -2
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@@ -40,7 +40,7 @@ extern "C" int hello_run() {
static constexpr int kInitialWidth = 320; static constexpr int kInitialWidth = 320;
static constexpr int kInitialHeight = 200; static constexpr int kInitialHeight = 200;
static constexpr uint32_t kBackgroundColor = 0xFFFFFFFF; static constexpr uint32_t kBackgroundColor = 0xFFFFFFFF;
Montauk::WinCreateResult wres; montauk::abi::WinCreateResult wres;
if (montauk::win_create("libhello Demo", kInitialWidth, kInitialHeight, &wres) < 0 || wres.id < 0) { if (montauk::win_create("libhello Demo", kInitialWidth, kInitialHeight, &wres) < 0 || wres.id < 0) {
return -1; return -1;
} }
@@ -82,7 +82,7 @@ extern "C" int hello_run() {
// Event loop // Event loop
while (true) { while (true) {
Montauk::WinEvent ev; montauk::abi::WinEvent ev;
int r = montauk::win_poll(winId, &ev); int r = montauk::win_poll(winId, &ev);
if (r < 0) { if (r < 0) {
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+3 -3
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@@ -3,7 +3,7 @@
fb_info, fb_map - direct framebuffer access fb_info, fb_map - direct framebuffer access
.SH SYNOPSIS .SH SYNOPSIS
.BI void montauk::fb_info(Montauk::FbInfo* info); .BI void montauk::fb_info(montauk::abi::FbInfo* info);
.BI void* montauk::fb_map(); .BI void* montauk::fb_map();
.SH DESCRIPTION .SH DESCRIPTION
@@ -13,7 +13,7 @@
.SS fb_info .SS fb_info
Fills in an FbInfo structure with the framebuffer geometry: Fills in an FbInfo structure with the framebuffer geometry:
Montauk::FbInfo fb; montauk::abi::FbInfo fb;
montauk::fb_info(&fb); montauk::fb_info(&fb);
// fb.width, fb.height, fb.pitch, fb.bpp // fb.width, fb.height, fb.pitch, fb.bpp
@@ -40,7 +40,7 @@
.SH EXAMPLE .SH EXAMPLE
Fill the screen with blue: Fill the screen with blue:
Montauk::FbInfo fb; montauk::abi::FbInfo fb;
montauk::fb_info(&fb); montauk::fb_info(&fb);
uint32_t* pixels = (uint32_t*)montauk::fb_map(); uint32_t* pixels = (uint32_t*)montauk::fb_map();
+8 -8
View File
@@ -93,14 +93,14 @@
.B SYS_GETTIME (28) .B SYS_GETTIME (28)
Get the current wall-clock date and time (UTC). Get the current wall-clock date and time (UTC).
Fills a Montauk::DateTime struct with Year, Month, Day, Fills a montauk::abi::DateTime struct with Year, Month, Day,
Hour, Minute, and Second fields. Hour, Minute, and Second fields.
void montauk::gettime(Montauk::DateTime* out); void montauk::gettime(montauk::abi::DateTime* out);
.SH SYSTEM .SH SYSTEM
.B SYS_GETINFO (15) .B SYS_GETINFO (15)
Get OS name, version, and configuration. Get OS name, version, and configuration.
void montauk::get_info(Montauk::SysInfo* info); void montauk::get_info(montauk::abi::SysInfo* info);
.SH KEYBOARD .SH KEYBOARD
.B SYS_ISKEYAVAILABLE (16) .B SYS_ISKEYAVAILABLE (16)
@@ -109,7 +109,7 @@
.B SYS_GETKEY (17) .B SYS_GETKEY (17)
Get the next key event (press or release). Get the next key event (press or release).
void montauk::getkey(Montauk::KeyEvent* out); void montauk::getkey(montauk::abi::KeyEvent* out);
.B SYS_GETCHAR (18) .B SYS_GETCHAR (18)
Block until a printable character is typed. Block until a printable character is typed.
@@ -123,16 +123,16 @@
.B SYS_GETNETCFG (37) .B SYS_GETNETCFG (37)
Get the current network configuration (IP, mask, gateway, MAC, Get the current network configuration (IP, mask, gateway, MAC,
DNS server). DNS server).
void montauk::get_netcfg(Montauk::NetCfg* out); void montauk::get_netcfg(montauk::abi::NetCfg* out);
.B SYS_SETNETCFG (38) .B SYS_SETNETCFG (38)
Set the network configuration (IP, mask, gateway, DNS server). Set the network configuration (IP, mask, gateway, DNS server).
int montauk::set_netcfg(const Montauk::NetCfg* cfg); int montauk::set_netcfg(const montauk::abi::NetCfg* cfg);
.B SYS_NETSTATUS (125) .B SYS_NETSTATUS (125)
Get adapter status including driver name, link state, polling mode, Get adapter status including driver name, link state, polling mode,
and RX/TX packet counters. and RX/TX packet counters.
int montauk::net_status(Montauk::NetStatus* out); int montauk::net_status(montauk::abi::NetStatus* out);
.B SYS_RESOLVE (44) .B SYS_RESOLVE (44)
Resolve a hostname to an IPv4 address via DNS. Sends a UDP Resolve a hostname to an IPv4 address via DNS. Sends a UDP
@@ -202,7 +202,7 @@
.SH FRAMEBUFFER .SH FRAMEBUFFER
.B SYS_FBINFO (21) .B SYS_FBINFO (21)
Get framebuffer dimensions and format. Get framebuffer dimensions and format.
void montauk::fb_info(Montauk::FbInfo* info); void montauk::fb_info(montauk::abi::FbInfo* info);
.B SYS_FBMAP (22) .B SYS_FBMAP (22)
Map the framebuffer into process memory at 0x50000000. Map the framebuffer into process memory at 0x50000000.
+3 -3
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@@ -452,7 +452,7 @@ static bool apply_move(MoveDir dir) {
return true; return true;
} }
static bool handle_key(const Montauk::KeyEvent& key) { static bool handle_key(const montauk::abi::KeyEvent& key) {
if (!key.pressed) return false; if (!key.pressed) return false;
if (key.scancode == 0x01) if (key.scancode == 0x01)
@@ -478,7 +478,7 @@ static bool handle_key(const Montauk::KeyEvent& key) {
return false; return false;
} }
static bool handle_mouse(const Montauk::WinEvent& ev) { static bool handle_mouse(const montauk::abi::WinEvent& ev) {
int old_x = g_mouse_x; int old_x = g_mouse_x;
int old_y = g_mouse_y; int old_y = g_mouse_y;
g_mouse_x = ev.mouse.x; g_mouse_x = ev.mouse.x;
@@ -511,7 +511,7 @@ extern "C" void _start() {
render(); render();
while (true) { while (true) {
Montauk::WinEvent ev; montauk::abi::WinEvent ev;
int r = g_win.poll(&ev); int r = g_win.poll(&ev);
if (r < 0) break; if (r < 0) break;
+3 -3
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@@ -53,7 +53,7 @@ static WsWindow g_win;
static int g_master_vol = 80; static int g_master_vol = 80;
static bool g_master_muted = false; static bool g_master_muted = false;
static Montauk::AudioStreamInfo g_streams[8]; static montauk::abi::AudioStreamInfo g_streams[8];
static int g_stream_count = 0; static int g_stream_count = 0;
// Drag target: -2 = none, -1 = master, 0..N-1 = stream slot in g_streams. // Drag target: -2 = none, -1 = master, 0..N-1 = stream slot in g_streams.
@@ -385,7 +385,7 @@ static bool handle_mouse(int mx, int my, uint8_t buttons, uint8_t prev) {
return false; return false;
} }
static bool handle_key(const Montauk::KeyEvent& key) { static bool handle_key(const montauk::abi::KeyEvent& key) {
if (!key.pressed) return false; if (!key.pressed) return false;
if (key.scancode == 0x01) { if (key.scancode == 0x01) {
g_win.closed = true; g_win.closed = true;
@@ -428,7 +428,7 @@ extern "C" void _start() {
render(); render();
while (g_win.id >= 0 && !g_win.closed) { while (g_win.id >= 0 && !g_win.closed) {
Montauk::WinEvent ev; montauk::abi::WinEvent ev;
int r = g_win.poll(&ev); int r = g_win.poll(&ev);
bool redraw = false; bool redraw = false;
+7 -7
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@@ -76,16 +76,16 @@ static int g_mouse_y = -1;
static int g_hover_row = -1; static int g_hover_row = -1;
// Adapter info // Adapter info
static Montauk::BtAdapterInfo g_adapter; static montauk::abi::BtAdapterInfo g_adapter;
static bool g_adapter_ok = false; static bool g_adapter_ok = false;
// Connected/paired devices // Connected/paired devices
static Montauk::BtDevInfo g_devices[MAX_CONNECTED]; static montauk::abi::BtDevInfo g_devices[MAX_CONNECTED];
static char g_device_names[MAX_CONNECTED][64]; static char g_device_names[MAX_CONNECTED][64];
static int g_device_count = 0; static int g_device_count = 0;
// Scan results // Scan results
static Montauk::BtScanResult g_scan[MAX_SCAN]; static montauk::abi::BtScanResult g_scan[MAX_SCAN];
static int g_scan_count = 0; static int g_scan_count = 0;
static bool g_scanning = false; static bool g_scanning = false;
@@ -268,7 +268,7 @@ static void refresh_devices() {
// Append bonded (paired) devices that aren't currently connected, so the // Append bonded (paired) devices that aren't currently connected, so the
// Devices tab remembers them across sessions/reboots. // Devices tab remembers them across sessions/reboots.
Montauk::BtBondInfo bonds[8]; montauk::abi::BtBondInfo bonds[8];
int nb = montauk::bt_bonds(bonds, 8); int nb = montauk::bt_bonds(bonds, 8);
for (int i = 0; i < nb && g_device_count < MAX_CONNECTED; i++) { for (int i = 0; i < nb && g_device_count < MAX_CONNECTED; i++) {
bool already = false; bool already = false;
@@ -277,7 +277,7 @@ static void refresh_devices() {
} }
if (already) continue; if (already) continue;
Montauk::BtDevInfo d = {}; montauk::abi::BtDevInfo d = {};
montauk::memcpy(d.bdAddr, bonds[i].bdAddr, 6); montauk::memcpy(d.bdAddr, bonds[i].bdAddr, 6);
d.connected = 0; // paired but not connected d.connected = 0; // paired but not connected
d.encrypted = 0; d.encrypted = 0;
@@ -642,7 +642,7 @@ static bool handle_adapter_mouse(int mx, int my, uint8_t buttons,
return false; return false;
} }
static bool handle_adapter_key(const Montauk::KeyEvent& key) { static bool handle_adapter_key(const montauk::abi::KeyEvent& key) {
if (key.ascii == '\n' || key.ascii == '\r') { apply_mac(); return true; } if (key.ascii == '\n' || key.ascii == '\r') { apply_mac(); return true; }
if (key.ascii == '\t') { g_mac_focus = !g_mac_focus; return true; } if (key.ascii == '\t') { g_mac_focus = !g_mac_focus; return true; }
@@ -883,7 +883,7 @@ extern "C" void _start() {
uint64_t last_refresh = montauk::get_milliseconds(); uint64_t last_refresh = montauk::get_milliseconds();
while (true) { while (true) {
Montauk::WinEvent ev; montauk::abi::WinEvent ev;
int r = win.poll(&ev); int r = win.poll(&ev);
if (r < 0) break; if (r < 0) break;
+3 -3
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@@ -530,7 +530,7 @@ static void render(Canvas& c) {
} }
} }
static bool handle_mouse(const Montauk::WinEvent& ev, int win_w, int win_h) { static bool handle_mouse(const montauk::abi::WinEvent& ev, int win_w, int win_h) {
CalcLayout layout; CalcLayout layout;
calc_build_layout(win_w, win_h, &layout); calc_build_layout(win_w, win_h, &layout);
@@ -558,7 +558,7 @@ static bool handle_mouse(const Montauk::WinEvent& ev, int win_w, int win_h) {
return redraw; return redraw;
} }
static bool handle_key(const Montauk::KeyEvent& key) { static bool handle_key(const montauk::abi::KeyEvent& key) {
if (!key.pressed) return false; if (!key.pressed) return false;
if (key.ascii >= '0' && key.ascii <= '9') { if (key.ascii >= '0' && key.ascii <= '9') {
@@ -602,7 +602,7 @@ extern "C" void _start() {
win.present(); win.present();
while (win.id >= 0 && !win.closed) { while (win.id >= 0 && !win.closed) {
Montauk::WinEvent ev; montauk::abi::WinEvent ev;
int r = win.poll(&ev); int r = win.poll(&ev);
if (r < 0) break; if (r < 0) break;
+2 -2
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@@ -21,7 +21,7 @@ static constexpr int COL1_W = 200;
static constexpr int SECTION_GAP = 10; static constexpr int SECTION_GAP = 10;
WsWindow g_win; WsWindow g_win;
Montauk::CrashReportInfo g_report = {}; montauk::abi::CrashReportInfo g_report = {};
int g_scroll = 0; int g_scroll = 0;
// Colors - light theme matching DiskDetail // Colors - light theme matching DiskDetail
@@ -213,7 +213,7 @@ extern "C" void _start() {
render(); render();
while (true) { while (true) {
Montauk::WinEvent ev; montauk::abi::WinEvent ev;
int r = g_win.poll(&ev); int r = g_win.poll(&ev);
if (r < 0) break; if (r < 0) break;
if (r == 0) { if (r == 0) {
+1 -1
View File
@@ -37,7 +37,7 @@ static const char* month_name(int m) {
} }
extern "C" void _start() { extern "C" void _start() {
Montauk::DateTime dt; montauk::abi::DateTime dt;
montauk::gettime(&dt); montauk::gettime(&dt);
print_int(dt.Day); print_int(dt.Day);
+1 -1
View File
@@ -233,7 +233,7 @@ void open_sleep_dialog(DesktopState* ds);
// Hand a graceful power-off request to login.elf and exit the desktop so the // Hand a graceful power-off request to login.elf and exit the desktop so the
// user returns to the login screen, where the shutdown stages run (Bluetooth // user returns to the login screen, where the shutdown stages run (Bluetooth
// teardown, filesystem flush) before the final ACPI power-off / reset. Pass // teardown, filesystem flush) before the final ACPI power-off / reset. Pass
// Montauk::POWER_REQ_SHUTDOWN or Montauk::POWER_REQ_REBOOT. // montauk::abi::POWER_REQ_SHUTDOWN or montauk::abi::POWER_REQ_REBOOT.
[[noreturn]] inline void desktop_request_power(int action) { [[noreturn]] inline void desktop_request_power(int action) {
montauk::power_request(action); montauk::power_request(action);
montauk::exit(0); montauk::exit(0);
@@ -319,7 +319,7 @@ void filemanager_on_mouse(Window* win, MouseEvent& ev) {
} }
} }
void filemanager_on_key(Window* win, const Montauk::KeyEvent& key) { void filemanager_on_key(Window* win, const montauk::abi::KeyEvent& key) {
FileManagerState* fm = (FileManagerState*)win->app_data; FileManagerState* fm = (FileManagerState*)win->app_data;
if (!fm || !key.pressed) return; if (!fm || !key.pressed) return;
@@ -297,7 +297,7 @@ int filemanager_collect_selection(const FileManagerState* fm, int* out, int max
void filemanager_draw_header(Canvas& c, FileManagerState* fm, Color toolbar_color, Color btn_bg); void filemanager_draw_header(Canvas& c, FileManagerState* fm, Color toolbar_color, Color btn_bg);
void filemanager_on_draw(Window* win, Framebuffer& fb); void filemanager_on_draw(Window* win, Framebuffer& fb);
void filemanager_on_mouse(Window* win, MouseEvent& ev); void filemanager_on_mouse(Window* win, MouseEvent& ev);
void filemanager_on_key(Window* win, const Montauk::KeyEvent& key); void filemanager_on_key(Window* win, const montauk::abi::KeyEvent& key);
void filemanager_on_close(Window* win); void filemanager_on_close(Window* win);
} // namespace filemanager } // namespace filemanager
@@ -238,7 +238,7 @@ static void fileop_dialog_on_mouse(Window* win, MouseEvent& ev) {
} }
} }
static void fileop_dialog_on_key(Window* win, const Montauk::KeyEvent& key) { static void fileop_dialog_on_key(Window* win, const montauk::abi::KeyEvent& key) {
FileOpJob* job = (FileOpJob*)win->app_data; FileOpJob* job = (FileOpJob*)win->app_data;
if (!job || !key.pressed) return; if (!job || !key.pressed) return;
if (key.scancode == 0x01) job->cancel = 1; // Escape requests cancel if (key.scancode == 0x01) job->cancel = 1; // Escape requests cancel
@@ -392,7 +392,7 @@ static void props_on_mouse(Window* win, MouseEvent& ev) {
props_close_self(st->desktop, st); props_close_self(st->desktop, st);
} }
static void props_on_key(Window* win, const Montauk::KeyEvent& key) { static void props_on_key(Window* win, const montauk::abi::KeyEvent& key) {
FilePropertiesDialogState* st = (FilePropertiesDialogState*)win->app_data; FilePropertiesDialogState* st = (FilePropertiesDialogState*)win->app_data;
if (!st || !key.pressed) return; if (!st || !key.pressed) return;
if (key.scancode == 0x01 || key.ascii == '\n' || key.ascii == '\r') if (key.scancode == 0x01 || key.ascii == '\n' || key.ascii == '\r')
@@ -576,7 +576,7 @@ static void delete_confirm_on_mouse(Window* win, MouseEvent& ev) {
} }
} }
static void delete_confirm_on_key(Window* win, const Montauk::KeyEvent& key) { static void delete_confirm_on_key(Window* win, const montauk::abi::KeyEvent& key) {
FileDeleteConfirmDialogState* st = (FileDeleteConfirmDialogState*)win->app_data; FileDeleteConfirmDialogState* st = (FileDeleteConfirmDialogState*)win->app_data;
if (!st || !key.pressed) return; if (!st || !key.pressed) return;
@@ -820,7 +820,7 @@ static void multi_props_on_mouse(Window* win, MouseEvent& ev) {
props_close_self(st->desktop, st); props_close_self(st->desktop, st);
} }
static void multi_props_on_key(Window* win, const Montauk::KeyEvent& key) { static void multi_props_on_key(Window* win, const montauk::abi::KeyEvent& key) {
MultiPropertiesDialogState* st = (MultiPropertiesDialogState*)win->app_data; MultiPropertiesDialogState* st = (MultiPropertiesDialogState*)win->app_data;
if (!st || !key.pressed) return; if (!st || !key.pressed) return;
if (key.scancode == 0x01 || key.ascii == '\n' || key.ascii == '\r') if (key.scancode == 0x01 || key.ascii == '\n' || key.ascii == '\r')
+1 -1
View File
@@ -60,7 +60,7 @@ static void settings_on_mouse(Window* win, MouseEvent& ev) {
} }
} }
static void settings_on_key(Window* win, const Montauk::KeyEvent& key) { static void settings_on_key(Window* win, const montauk::abi::KeyEvent& key) {
// Settings main window no longer needs keyboard handling. // Settings main window no longer needs keyboard handling.
(void)win; (void)win;
(void)key; (void)key;
@@ -18,7 +18,7 @@ namespace settings_app {
struct SettingsState { struct SettingsState {
DesktopState* desktop; DesktopState* desktop;
int active_tab; // 0=Appearance, 1=Display, 2=About int active_tab; // 0=Appearance, 1=Display, 2=About
Montauk::SysInfo sys_info; montauk::abi::SysInfo sys_info;
uint64_t uptime_ms; uint64_t uptime_ms;
WallpaperFileList wp_files; WallpaperFileList wp_files;
bool wp_scanned; bool wp_scanned;
@@ -32,7 +32,7 @@ static void usermanager_on_mouse(Window* win, MouseEvent& ev) {
} }
} }
static void usermanager_on_key(Window* win, const Montauk::KeyEvent& key) { static void usermanager_on_key(Window* win, const montauk::abi::KeyEvent& key) {
(void)win; (void)win;
(void)key; (void)key;
} }
@@ -257,7 +257,7 @@ static void adduser_on_mouse(Window* win, MouseEvent& ev) {
} }
} }
static void adduser_on_key(Window* win, const Montauk::KeyEvent& key) { static void adduser_on_key(Window* win, const montauk::abi::KeyEvent& key) {
AddUserDialogState* st = (AddUserDialogState*)win->app_data; AddUserDialogState* st = (AddUserDialogState*)win->app_data;
if (!st || !key.pressed) return; if (!st || !key.pressed) return;
@@ -495,7 +495,7 @@ static void chpwd_on_mouse(Window* win, MouseEvent& ev) {
} }
} }
static void chpwd_on_key(Window* win, const Montauk::KeyEvent& key) { static void chpwd_on_key(Window* win, const montauk::abi::KeyEvent& key) {
ChPwdDialogState* st = (ChPwdDialogState*)win->app_data; ChPwdDialogState* st = (ChPwdDialogState*)win->app_data;
if (!st || !key.pressed) return; if (!st || !key.pressed) return;
@@ -647,7 +647,7 @@ static void deluser_on_mouse(Window* win, MouseEvent& ev) {
} }
} }
static void deluser_on_key(Window* win, const Montauk::KeyEvent& key) { static void deluser_on_key(Window* win, const montauk::abi::KeyEvent& key) {
DeleteUserDialogState* st = (DeleteUserDialogState*)win->app_data; DeleteUserDialogState* st = (DeleteUserDialogState*)win->app_data;
if (!st || !key.pressed) return; if (!st || !key.pressed) return;
+1 -1
View File
@@ -33,7 +33,7 @@ void desktop_draw_lock_screen(DesktopState* ds) {
fb.fill_rect_alpha(0, 0, sw, sh, Color::from_rgba(0, 0, 0, 0x80)); fb.fill_rect_alpha(0, 0, sw, sh, Color::from_rgba(0, 0, 0, 0x80));
// Clock display above card // Clock display above card
Montauk::DateTime dt; montauk::abi::DateTime dt;
montauk::gettime(&dt); montauk::gettime(&dt);
char time_str[12]; char time_str[12];
snprintf(time_str, sizeof(time_str), "%02d:%02d", (int)dt.Hour, (int)dt.Minute); snprintf(time_str, sizeof(time_str), "%02d:%02d", (int)dt.Hour, (int)dt.Minute);
+2 -2
View File
@@ -124,7 +124,7 @@ inline int menu_add_external(const char* label, const char* binary, SvgIcon* ico
// ============================================================================ // ============================================================================
inline bool desktop_window_fullscreen(const gui::Window* win) { inline bool desktop_window_fullscreen(const gui::Window* win) {
return win && win->external && (win->ext_flags & Montauk::WIN_FLAG_FULLSCREEN); return win && win->external && (win->ext_flags & montauk::abi::WIN_FLAG_FULLSCREEN);
} }
inline gui::Rect desktop_content_rect(const gui::Window* win) { inline gui::Rect desktop_content_rect(const gui::Window* win) {
@@ -160,7 +160,7 @@ inline const char* month_names[] = {
// launcher.cpp // launcher.cpp
void desktop_init_launcher(gui::DesktopState* ds); void desktop_init_launcher(gui::DesktopState* ds);
bool desktop_handle_launcher_keyboard(gui::DesktopState* ds, const Montauk::KeyEvent& key); bool desktop_handle_launcher_keyboard(gui::DesktopState* ds, const montauk::abi::KeyEvent& key);
void desktop_handle_launcher_mouse(gui::DesktopState* ds); void desktop_handle_launcher_mouse(gui::DesktopState* ds);
void desktop_draw_launcher(gui::DesktopState* ds); void desktop_draw_launcher(gui::DesktopState* ds);
uint64_t desktop_launcher_blink_token(const gui::DesktopState* ds, uint64_t now); uint64_t desktop_launcher_blink_token(const gui::DesktopState* ds, uint64_t now);
+7 -7
View File
@@ -69,7 +69,7 @@ static void reboot_dialog_on_mouse(Window* win, MouseEvent& ev) {
rs->hover_cancel = cb.contains(lx, ly); rs->hover_cancel = cb.contains(lx, ly);
if (ev.left_pressed()) { if (ev.left_pressed()) {
if (rs->hover_reboot) desktop_request_power(Montauk::POWER_REQ_REBOOT); if (rs->hover_reboot) desktop_request_power(montauk::abi::POWER_REQ_REBOOT);
if (rs->hover_cancel) { if (rs->hover_cancel) {
for (int i = 0; i < rs->ds->window_count; i++) { for (int i = 0; i < rs->ds->window_count; i++) {
if (rs->ds->windows[i].app_data == rs) { if (rs->ds->windows[i].app_data == rs) {
@@ -81,12 +81,12 @@ static void reboot_dialog_on_mouse(Window* win, MouseEvent& ev) {
} }
} }
static void reboot_dialog_on_key(Window* win, const Montauk::KeyEvent& key) { static void reboot_dialog_on_key(Window* win, const montauk::abi::KeyEvent& key) {
RebootDialogState* rs = (RebootDialogState*)win->app_data; RebootDialogState* rs = (RebootDialogState*)win->app_data;
if (!rs || !key.pressed) return; if (!rs || !key.pressed) return;
if (key.ascii == '\n' || key.ascii == '\r') { if (key.ascii == '\n' || key.ascii == '\r') {
desktop_request_power(Montauk::POWER_REQ_REBOOT); desktop_request_power(montauk::abi::POWER_REQ_REBOOT);
} }
if (key.scancode == 0x01) { // Escape if (key.scancode == 0x01) { // Escape
for (int i = 0; i < rs->ds->window_count; i++) { for (int i = 0; i < rs->ds->window_count; i++) {
@@ -181,7 +181,7 @@ static void shutdown_dialog_on_mouse(Window* win, MouseEvent& ev) {
ss->hover_cancel = cb.contains(lx, ly); ss->hover_cancel = cb.contains(lx, ly);
if (ev.left_pressed()) { if (ev.left_pressed()) {
if (ss->hover_shutdown) desktop_request_power(Montauk::POWER_REQ_SHUTDOWN); if (ss->hover_shutdown) desktop_request_power(montauk::abi::POWER_REQ_SHUTDOWN);
if (ss->hover_cancel) { if (ss->hover_cancel) {
for (int i = 0; i < ss->ds->window_count; i++) { for (int i = 0; i < ss->ds->window_count; i++) {
if (ss->ds->windows[i].app_data == ss) { if (ss->ds->windows[i].app_data == ss) {
@@ -193,12 +193,12 @@ static void shutdown_dialog_on_mouse(Window* win, MouseEvent& ev) {
} }
} }
static void shutdown_dialog_on_key(Window* win, const Montauk::KeyEvent& key) { static void shutdown_dialog_on_key(Window* win, const montauk::abi::KeyEvent& key) {
ShutdownDialogState* ss = (ShutdownDialogState*)win->app_data; ShutdownDialogState* ss = (ShutdownDialogState*)win->app_data;
if (!ss || !key.pressed) return; if (!ss || !key.pressed) return;
if (key.ascii == '\n' || key.ascii == '\r') { if (key.ascii == '\n' || key.ascii == '\r') {
desktop_request_power(Montauk::POWER_REQ_SHUTDOWN); desktop_request_power(montauk::abi::POWER_REQ_SHUTDOWN);
} }
if (key.scancode == 0x01) { // Escape if (key.scancode == 0x01) { // Escape
for (int i = 0; i < ss->ds->window_count; i++) { for (int i = 0; i < ss->ds->window_count; i++) {
@@ -314,7 +314,7 @@ static void sleep_dialog_on_mouse(Window* win, MouseEvent& ev) {
} }
} }
static void sleep_dialog_on_key(Window* win, const Montauk::KeyEvent& key) { static void sleep_dialog_on_key(Window* win, const montauk::abi::KeyEvent& key) {
SleepDialogState* ss = (SleepDialogState*)win->app_data; SleepDialogState* ss = (SleepDialogState*)win->app_data;
if (!ss || !key.pressed) return; if (!ss || !key.pressed) return;
+12 -12
View File
@@ -66,7 +66,7 @@ static void handle_lock_mouse(DesktopState* ds) {
} }
} }
static void handle_lock_keyboard(DesktopState* ds, const Montauk::KeyEvent& key) { static void handle_lock_keyboard(DesktopState* ds, const montauk::abi::KeyEvent& key) {
if (!key.pressed) return; if (!key.pressed) return;
// Enter submits // Enter submits
@@ -101,7 +101,7 @@ static void forward_external_mouse(gui::Window* win,
uint8_t buttons, uint8_t buttons,
uint8_t prev) { uint8_t prev) {
gui::Rect cr = desktop_content_rect(win); gui::Rect cr = desktop_content_rect(win);
Montauk::WinEvent wev; montauk::abi::WinEvent wev;
montauk::memset(&wev, 0, sizeof(wev)); montauk::memset(&wev, 0, sizeof(wev));
wev.type = 1; // mouse wev.type = 1; // mouse
wev.mouse.x = mx - cr.x; wev.mouse.x = mx - cr.x;
@@ -242,7 +242,7 @@ void gui::desktop_handle_mouse(DesktopState* ds) {
} }
} else { } else {
Rect cr = desktop_content_rect(win); Rect cr = desktop_content_rect(win);
Montauk::WinEvent rev; montauk::abi::WinEvent rev;
montauk::memset(&rev, 0, sizeof(rev)); montauk::memset(&rev, 0, sizeof(rev));
rev.type = 2; rev.type = 2;
rev.resize.w = cr.w; rev.resize.w = cr.w;
@@ -264,7 +264,7 @@ void gui::desktop_handle_mouse(DesktopState* ds) {
} }
} else { } else {
Rect cr = desktop_content_rect(win); Rect cr = desktop_content_rect(win);
Montauk::WinEvent rev; montauk::abi::WinEvent rev;
montauk::memset(&rev, 0, sizeof(rev)); montauk::memset(&rev, 0, sizeof(rev));
rev.type = 2; rev.type = 2;
rev.resize.w = cr.w; rev.resize.w = cr.w;
@@ -331,7 +331,7 @@ void gui::desktop_handle_mouse(DesktopState* ds) {
win->dirty = true; win->dirty = true;
} else { } else {
Rect cr = desktop_content_rect(win); Rect cr = desktop_content_rect(win);
Montauk::WinEvent rev; montauk::abi::WinEvent rev;
montauk::memset(&rev, 0, sizeof(rev)); montauk::memset(&rev, 0, sizeof(rev));
rev.type = 2; rev.type = 2;
rev.resize.w = cr.w; rev.resize.w = cr.w;
@@ -615,7 +615,7 @@ void gui::desktop_handle_mouse(DesktopState* ds) {
} }
} else { } else {
Rect cr = desktop_content_rect(win); Rect cr = desktop_content_rect(win);
Montauk::WinEvent rev; montauk::abi::WinEvent rev;
montauk::memset(&rev, 0, sizeof(rev)); montauk::memset(&rev, 0, sizeof(rev));
rev.type = 2; rev.type = 2;
rev.resize.w = cr.w; rev.resize.w = cr.w;
@@ -661,7 +661,7 @@ void gui::desktop_handle_mouse(DesktopState* ds) {
Window* raised = &ds->windows[new_idx]; Window* raised = &ds->windows[new_idx];
if (raised->external) { if (raised->external) {
// Forward mouse event to external window // Forward mouse event to external window
Montauk::WinEvent wev; montauk::abi::WinEvent wev;
montauk::memset(&wev, 0, sizeof(wev)); montauk::memset(&wev, 0, sizeof(wev));
wev.type = 1; // mouse wev.type = 1; // mouse
wev.mouse.x = mx - cr.x; wev.mouse.x = mx - cr.x;
@@ -700,7 +700,7 @@ void gui::desktop_handle_mouse(DesktopState* ds) {
// Forward if mouse is over content (hover/move) or button is held/released (drag continuity) // Forward if mouse is over content (hover/move) or button is held/released (drag continuity)
if (cr.contains(mx, my) || left_held || left_released) { if (cr.contains(mx, my) || left_held || left_released) {
if (win->external) { if (win->external) {
Montauk::WinEvent wev; montauk::abi::WinEvent wev;
montauk::memset(&wev, 0, sizeof(wev)); montauk::memset(&wev, 0, sizeof(wev));
wev.type = 1; // mouse wev.type = 1; // mouse
wev.mouse.x = mx - cr.x; wev.mouse.x = mx - cr.x;
@@ -726,7 +726,7 @@ void gui::desktop_handle_mouse(DesktopState* ds) {
Rect cr = desktop_content_rect(win); Rect cr = desktop_content_rect(win);
if (cr.contains(mx, my)) { if (cr.contains(mx, my)) {
if (win->external) { if (win->external) {
Montauk::WinEvent wev; montauk::abi::WinEvent wev;
montauk::memset(&wev, 0, sizeof(wev)); montauk::memset(&wev, 0, sizeof(wev));
wev.type = 1; // mouse wev.type = 1; // mouse
wev.mouse.x = mx - cr.x; wev.mouse.x = mx - cr.x;
@@ -763,7 +763,7 @@ void gui::desktop_handle_mouse(DesktopState* ds) {
} }
} }
void gui::desktop_handle_keyboard(DesktopState* ds, const Montauk::KeyEvent& key) { void gui::desktop_handle_keyboard(DesktopState* ds, const montauk::abi::KeyEvent& key) {
if (ds->screen_locked) { if (ds->screen_locked) {
handle_lock_keyboard(ds, key); handle_lock_keyboard(ds, key);
return; return;
@@ -776,7 +776,7 @@ void gui::desktop_handle_keyboard(DesktopState* ds, const Montauk::KeyEvent& key
if (!desktop_window_fullscreen(win)) if (!desktop_window_fullscreen(win))
break; break;
Montauk::WinEvent ev; montauk::abi::WinEvent ev;
montauk::memset(&ev, 0, sizeof(ev)); montauk::memset(&ev, 0, sizeof(ev));
ev.type = 0; // key ev.type = 0; // key
ev.key = key; ev.key = key;
@@ -828,7 +828,7 @@ void gui::desktop_handle_keyboard(DesktopState* ds, const Montauk::KeyEvent& key
Window* win = &ds->windows[ds->focused_window]; Window* win = &ds->windows[ds->focused_window];
if (win->external) { if (win->external) {
// Forward key event to external window via syscall // Forward key event to external window via syscall
Montauk::WinEvent ev; montauk::abi::WinEvent ev;
montauk::memset(&ev, 0, sizeof(ev)); montauk::memset(&ev, 0, sizeof(ev));
ev.type = 0; // key ev.type = 0; // key
ev.key = key; ev.key = key;
+4 -4
View File
@@ -339,11 +339,11 @@ static void launcher_activate_selected(DesktopState* ds) {
break; break;
case LAUNCHER_ITEM_COMMAND_REBOOT: case LAUNCHER_ITEM_COMMAND_REBOOT:
desktop_close_launcher(ds); desktop_close_launcher(ds);
desktop_request_power(Montauk::POWER_REQ_REBOOT); desktop_request_power(montauk::abi::POWER_REQ_REBOOT);
return; return;
case LAUNCHER_ITEM_COMMAND_SHUTDOWN: case LAUNCHER_ITEM_COMMAND_SHUTDOWN:
desktop_close_launcher(ds); desktop_close_launcher(ds);
desktop_request_power(Montauk::POWER_REQ_SHUTDOWN); desktop_request_power(montauk::abi::POWER_REQ_SHUTDOWN);
return; return;
case LAUNCHER_ITEM_SPECIAL_FOLDER: case LAUNCHER_ITEM_SPECIAL_FOLDER:
if (item->path[0] != '\0') { if (item->path[0] != '\0') {
@@ -355,7 +355,7 @@ static void launcher_activate_selected(DesktopState* ds) {
desktop_close_launcher(ds); desktop_close_launcher(ds);
} }
static void launcher_update_super_state(DesktopState* ds, const Montauk::KeyEvent& key) { static void launcher_update_super_state(DesktopState* ds, const montauk::abi::KeyEvent& key) {
uint8_t sc = key.scancode & 0x7F; uint8_t sc = key.scancode & 0x7F;
if (sc == 0x5B) { if (sc == 0x5B) {
ds->super_left_down = key.pressed; ds->super_left_down = key.pressed;
@@ -411,7 +411,7 @@ void desktop_close_launcher(DesktopState* ds) {
ds->launcher_scroll = 0; ds->launcher_scroll = 0;
} }
bool desktop_handle_launcher_keyboard(DesktopState* ds, const Montauk::KeyEvent& key) { bool desktop_handle_launcher_keyboard(DesktopState* ds, const montauk::abi::KeyEvent& key) {
launcher_update_super_state(ds, key); launcher_update_super_state(ds, key);
uint8_t sc = key.scancode & 0x7F; uint8_t sc = key.scancode & 0x7F;
+8 -8
View File
@@ -180,7 +180,7 @@ void gui::desktop_init(DesktopState* ds) {
ds->app_menu_open = false; ds->app_menu_open = false;
desktop_init_launcher(ds); desktop_init_launcher(ds);
montauk::memset(&ds->mouse, 0, sizeof(Montauk::MouseState)); montauk::memset(&ds->mouse, 0, sizeof(montauk::abi::MouseState));
montauk::set_mouse_bounds(ds->screen_w - 1, ds->screen_h - 1); montauk::set_mouse_bounds(ds->screen_w - 1, ds->screen_h - 1);
gui::clipboard_clear(); gui::clipboard_clear();
@@ -333,7 +333,7 @@ void gui::desktop_init(DesktopState* ds) {
// ============================================================================ // ============================================================================
static uint64_t desktop_clock_token() { static uint64_t desktop_clock_token() {
Montauk::DateTime dt; montauk::abi::DateTime dt;
montauk::gettime(&dt); montauk::gettime(&dt);
return ((uint64_t)dt.Year << 32) return ((uint64_t)dt.Year << 32)
| ((uint64_t)dt.Month << 24) | ((uint64_t)dt.Month << 24)
@@ -369,7 +369,7 @@ static void desktop_clear_window_dirty(DesktopState* ds) {
} }
} }
static bool desktop_netcfg_equal(const Montauk::NetCfg& a, const Montauk::NetCfg& b) { static bool desktop_netcfg_equal(const montauk::abi::NetCfg& a, const montauk::abi::NetCfg& b) {
if (a.ipAddress != b.ipAddress || a.subnetMask != b.subnetMask || if (a.ipAddress != b.ipAddress || a.subnetMask != b.subnetMask ||
a.gateway != b.gateway || a.dnsServer != b.dnsServer) { a.gateway != b.gateway || a.dnsServer != b.dnsServer) {
return false; return false;
@@ -385,7 +385,7 @@ static bool desktop_refresh_panel_state(DesktopState* ds, uint64_t now) {
bool changed = false; bool changed = false;
if (now - ds->net_cfg_last_poll > 5000) { if (now - ds->net_cfg_last_poll > 5000) {
Montauk::NetCfg next; montauk::abi::NetCfg next;
montauk::get_netcfg(&next); montauk::get_netcfg(&next);
if (!desktop_netcfg_equal(next, ds->cached_net_cfg)) { if (!desktop_netcfg_equal(next, ds->cached_net_cfg)) {
ds->cached_net_cfg = next; ds->cached_net_cfg = next;
@@ -425,7 +425,7 @@ static bool desktop_refresh_panel_state(DesktopState* ds, uint64_t now) {
bool desktop_poll_external_windows(DesktopState* ds) { bool desktop_poll_external_windows(DesktopState* ds) {
bool changed = false; bool changed = false;
Montauk::WinInfo extWins[8]; montauk::abi::WinInfo extWins[8];
int extCount = montauk::win_enumerate(extWins, 8); int extCount = montauk::win_enumerate(extWins, 8);
// Check for new external windows and map them // Check for new external windows and map them
@@ -649,7 +649,7 @@ void gui::desktop_run(DesktopState* ds) {
// Poll keyboard events // Poll keyboard events
while (montauk::is_key_available()) { while (montauk::is_key_available()) {
Montauk::KeyEvent key; montauk::abi::KeyEvent key;
montauk::getkey(&key); montauk::getkey(&key);
desktop_handle_keyboard(ds, key); desktop_handle_keyboard(ds, key);
keyboardChanged = true; keyboardChanged = true;
@@ -730,7 +730,7 @@ static DesktopState* g_desktop;
static constexpr const char kDesktopBinaryName[] = "desktop.elf"; static constexpr const char kDesktopBinaryName[] = "desktop.elf";
static constexpr int DESKTOP_PROC_SCAN_MAX = 256; static constexpr int DESKTOP_PROC_SCAN_MAX = 256;
static bool desktop_proc_alive(const Montauk::ProcInfo& proc) { static bool desktop_proc_alive(const montauk::abi::ProcInfo& proc) {
return proc.state == 1 || proc.state == 2 || proc.state == 3; return proc.state == 1 || proc.state == 2 || proc.state == 3;
} }
@@ -745,7 +745,7 @@ static bool proc_name_is_desktop(const char* name) {
} }
static bool existing_desktop_running() { static bool existing_desktop_running() {
static Montauk::ProcInfo procs[DESKTOP_PROC_SCAN_MAX]; static montauk::abi::ProcInfo procs[DESKTOP_PROC_SCAN_MAX];
int count = montauk::proclist(procs, DESKTOP_PROC_SCAN_MAX); int count = montauk::proclist(procs, DESKTOP_PROC_SCAN_MAX);
if (count <= 0) return false; if (count <= 0) return false;
+2 -2
View File
@@ -83,7 +83,7 @@ void gui::desktop_draw_panel(DesktopState* ds) {
} }
// Date + Clock (right side) // Date + Clock (right side)
Montauk::DateTime dt; montauk::abi::DateTime dt;
montauk::gettime(&dt); montauk::gettime(&dt);
char clock_str[12]; char clock_str[12];
@@ -256,7 +256,7 @@ void desktop_draw_app_menu(DesktopState* ds) {
void desktop_draw_net_popup(DesktopState* ds) { void desktop_draw_net_popup(DesktopState* ds) {
Framebuffer& fb = ds->fb; Framebuffer& fb = ds->fb;
Montauk::NetCfg& nc = ds->cached_net_cfg; montauk::abi::NetCfg& nc = ds->cached_net_cfg;
bool connected = nc.ipAddress != 0; bool connected = nc.ipAddress != 0;
int popup_w = 220; int popup_w = 220;
+1 -1
View File
@@ -64,7 +64,7 @@ void gui::desktop_close_window(DesktopState* ds, int idx) {
if (ds->closing_ext_count < DesktopState::MAX_CLOSING) { if (ds->closing_ext_count < DesktopState::MAX_CLOSING) {
ds->closing_ext_ids[ds->closing_ext_count++] = win->ext_win_id; ds->closing_ext_ids[ds->closing_ext_count++] = win->ext_win_id;
} }
Montauk::WinEvent ev; montauk::abi::WinEvent ev;
montauk::memset(&ev, 0, sizeof(ev)); montauk::memset(&ev, 0, sizeof(ev));
ev.type = 3; // close ev.type = 3; // close
montauk::win_sendevent(win->ext_win_id, &ev); montauk::win_sendevent(win->ext_win_id, &ev);
+3 -3
View File
@@ -139,7 +139,7 @@ static constexpr int DD_INIT_H = 420;
static constexpr int DD_TAB_BAR_H = 32; static constexpr int DD_TAB_BAR_H = 32;
struct DiskDetailState { struct DiskDetailState {
Montauk::DiskInfo info; montauk::abi::DiskInfo info;
int active_tab; int active_tab;
int win_id; int win_id;
int win_w, win_h; int win_w, win_h;
@@ -152,7 +152,7 @@ struct DiskDetailState {
// ============================================================================ // ============================================================================
struct DevExplorerState { struct DevExplorerState {
Montauk::DevInfo devs[MAX_TOTAL_DEVS]; montauk::abi::DevInfo devs[MAX_TOTAL_DEVS];
int dev_count; int dev_count;
bool collapsed[NUM_CATEGORIES]; bool collapsed[NUM_CATEGORIES];
int selected_row; int selected_row;
@@ -193,7 +193,7 @@ void render(uint32_t* pixels);
// ============================================================================ // ============================================================================
int build_display_rows(DevExplorerState* de, DisplayRow* rows); int build_display_rows(DevExplorerState* de, DisplayRow* rows);
int append_printer_devices(Montauk::DevInfo* out, int max_count); int append_printer_devices(montauk::abi::DevInfo* out, int max_count);
ScrollMetrics compute_scroll_metrics(DevExplorerState* de, ScrollMetrics compute_scroll_metrics(DevExplorerState* de,
const DisplayRow* rows, int row_count); const DisplayRow* rows, int row_count);
void set_scroll_from_px(DevExplorerState* de, const DisplayRow* rows, void set_scroll_from_px(DevExplorerState* de, const DisplayRow* rows,
+1 -1
View File
@@ -274,7 +274,7 @@ void open_disk_detail(int port, const char* model) {
montauk::memset(&dd.info, 0, sizeof(dd.info)); montauk::memset(&dd.info, 0, sizeof(dd.info));
montauk::diskinfo(&dd.info, port); montauk::diskinfo(&dd.info, port);
Montauk::WinCreateResult wres; montauk::abi::WinCreateResult wres;
if (montauk::win_create(title, dd.win_w, dd.win_h, &wres) < 0 || wres.id < 0) if (montauk::win_create(title, dd.win_w, dd.win_h, &wres) < 0 || wres.id < 0)
return; return;
+3 -3
View File
@@ -186,7 +186,7 @@ static bool handle_list_click(int mx, int my) {
// Mouse handling (wheel, draggable scrollbar, clicks) // Mouse handling (wheel, draggable scrollbar, clicks)
// ============================================================================ // ============================================================================
static bool handle_main_mouse(const Montauk::WinEvent& ev) { static bool handle_main_mouse(const montauk::abi::WinEvent& ev) {
auto& de = g_state; auto& de = g_state;
int mx = ev.mouse.x; int mx = ev.mouse.x;
int my = ev.mouse.y; int my = ev.mouse.y;
@@ -272,7 +272,7 @@ static bool handle_main_mouse(const Montauk::WinEvent& ev) {
// Key handling // Key handling
// ============================================================================ // ============================================================================
static bool handle_key(const Montauk::KeyEvent& key) { static bool handle_key(const montauk::abi::KeyEvent& key) {
if (!key.pressed) return false; if (!key.pressed) return false;
auto& de = g_state; auto& de = g_state;
@@ -371,7 +371,7 @@ extern "C" void _start() {
win.present(); win.present();
while (true) { while (true) {
Montauk::WinEvent ev; montauk::abi::WinEvent ev;
bool redraw_main = false; bool redraw_main = false;
bool redraw_detail = false; bool redraw_detail = false;
+2 -2
View File
@@ -45,7 +45,7 @@ static void format_printer_detail(const ProbeState& probe,
snprintf(out, (size_t)out_len, "Awaiting spooler probe"); snprintf(out, (size_t)out_len, "Awaiting spooler probe");
} }
int append_printer_devices(Montauk::DevInfo* out, int max_count) { int append_printer_devices(montauk::abi::DevInfo* out, int max_count) {
if (out == nullptr || max_count <= 0) return 0; if (out == nullptr || max_count <= 0) return 0;
char current_uri[MAX_PATH_LEN] = {}; char current_uri[MAX_PATH_LEN] = {};
@@ -65,7 +65,7 @@ int append_printer_devices(Montauk::DevInfo* out, int max_count) {
char uri_err[128] = {}; char uri_err[128] = {};
bool normalized_ok = normalize_ipp_uri(effective_uri, &normalized, uri_err, sizeof(uri_err)); bool normalized_ok = normalize_ipp_uri(effective_uri, &normalized, uri_err, sizeof(uri_err));
Montauk::DevInfo dev = {}; montauk::abi::DevInfo dev = {};
dev.category = CAT_PRINTER; dev.category = CAT_PRINTER;
if (has_probe && probe.caps.printer_name[0]) { if (has_probe && probe.caps.printer_name[0]) {
+6 -6
View File
@@ -335,7 +335,7 @@ extern "C" void _start() {
montauk::print("MontaukOS DHCP Client\n"); montauk::print("MontaukOS DHCP Client\n");
// 1. Get MAC address // 1. Get MAC address
Montauk::NetCfg origCfg; montauk::abi::NetCfg origCfg;
montauk::get_netcfg(&origCfg); montauk::get_netcfg(&origCfg);
char macStr[32]; char macStr[32];
@@ -344,14 +344,14 @@ extern "C" void _start() {
montauk::print(msg); montauk::print(msg);
// 2. Set IP to 0.0.0.0 to allow broadcast send/receive // 2. Set IP to 0.0.0.0 to allow broadcast send/receive
Montauk::NetCfg zeroCfg; montauk::abi::NetCfg zeroCfg;
zeroCfg.ipAddress = 0; zeroCfg.ipAddress = 0;
zeroCfg.subnetMask = 0; zeroCfg.subnetMask = 0;
zeroCfg.gateway = 0; zeroCfg.gateway = 0;
montauk::set_netcfg(&zeroCfg); montauk::set_netcfg(&zeroCfg);
// 3. Create UDP socket and bind to port 68 // 3. Create UDP socket and bind to port 68
int fd = montauk::socket(Montauk::SOCK_UDP); int fd = montauk::socket(montauk::abi::SOCK_UDP);
if (fd < 0) { if (fd < 0) {
montauk::print("Error: failed to create UDP socket\n"); montauk::print("Error: failed to create UDP socket\n");
montauk::set_netcfg(&origCfg); montauk::set_netcfg(&origCfg);
@@ -399,7 +399,7 @@ extern "C" void _start() {
} }
uint64_t now = montauk::get_milliseconds(); uint64_t now = montauk::get_milliseconds();
if (now >= startMs + 10000) break; if (now >= startMs + 10000) break;
montauk::wait_handle(fd, Montauk::IPC_SIGNAL_READABLE, startMs + 10000 - now); montauk::wait_handle(fd, montauk::abi::IPC_SIGNAL_READABLE, startMs + 10000 - now);
} }
if (!gotOffer) { if (!gotOffer) {
@@ -451,7 +451,7 @@ extern "C" void _start() {
} }
uint64_t now = montauk::get_milliseconds(); uint64_t now = montauk::get_milliseconds();
if (now >= startMs + 10000) break; if (now >= startMs + 10000) break;
montauk::wait_handle(fd, Montauk::IPC_SIGNAL_READABLE, startMs + 10000 - now); montauk::wait_handle(fd, montauk::abi::IPC_SIGNAL_READABLE, startMs + 10000 - now);
} }
montauk::closesocket(fd); montauk::closesocket(fd);
@@ -463,7 +463,7 @@ extern "C" void _start() {
} }
// 8. Apply configuration // 8. Apply configuration
Montauk::NetCfg newCfg; montauk::abi::NetCfg newCfg;
newCfg.ipAddress = offer.offeredIp; newCfg.ipAddress = offer.offeredIp;
newCfg.subnetMask = offer.subnetMask; newCfg.subnetMask = offer.subnetMask;
newCfg.gateway = offer.router; newCfg.gateway = offer.router;
+4 -4
View File
@@ -1047,7 +1047,7 @@ int file_field_mouse(mtk::TextInputState& input, const Rect& rect, char* buf, in
focused, false, filter); focused, false, filter);
} }
void handle_file_mouse(const Montauk::WinEvent& ev) { void handle_file_mouse(const montauk::abi::WinEvent& ev) {
FileDialogState* st = &g_file; FileDialogState* st = &g_file;
st->mouse_x = ev.mouse.x; st->mouse_x = ev.mouse.x;
st->mouse_y = ev.mouse.y; st->mouse_y = ev.mouse.y;
@@ -1159,7 +1159,7 @@ void handle_file_mouse(const Montauk::WinEvent& ev) {
} }
} }
void handle_file_key(const Montauk::KeyEvent& key) { void handle_file_key(const montauk::abi::KeyEvent& key) {
if (!key.pressed) return; if (!key.pressed) return;
FileDialogState* st = &g_file; FileDialogState* st = &g_file;
@@ -1234,11 +1234,11 @@ void draw() {
draw_file_dialog(); draw_file_dialog();
} }
void handle_mouse(const Montauk::WinEvent& ev) { void handle_mouse(const montauk::abi::WinEvent& ev) {
handle_file_mouse(ev); handle_file_mouse(ev);
} }
void handle_key(const Montauk::KeyEvent& key) { void handle_key(const montauk::abi::KeyEvent& key) {
handle_file_key(key); handle_file_key(key);
} }
+2 -2
View File
@@ -50,8 +50,8 @@ constexpr int BUTTON_W = 88;
void init(const gui::dialogs::Request& req); void init(const gui::dialogs::Request& req);
void draw(); void draw();
void handle_mouse(const Montauk::WinEvent& ev); void handle_mouse(const montauk::abi::WinEvent& ev);
void handle_key(const Montauk::KeyEvent& key); void handle_key(const montauk::abi::KeyEvent& key);
void cleanup(); void cleanup();
} // namespace filedialog } // namespace filedialog
+5 -5
View File
@@ -35,8 +35,8 @@ static constexpr uint8_t WIN_SCALE = 4;
struct DialogCallbacks { struct DialogCallbacks {
void (*draw)(); void (*draw)();
void (*on_close)(); void (*on_close)();
void (*handle_mouse)(const Montauk::WinEvent& ev); void (*handle_mouse)(const montauk::abi::WinEvent& ev);
void (*handle_key)(const Montauk::KeyEvent& key); void (*handle_key)(const montauk::abi::KeyEvent& key);
}; };
static void run_dialog_loop(const DialogCallbacks& cb) { static void run_dialog_loop(const DialogCallbacks& cb) {
@@ -44,7 +44,7 @@ static void run_dialog_loop(const DialogCallbacks& cb) {
cb.draw(); cb.draw();
g_app.win.present(); g_app.win.present();
Montauk::WinEvent ev; montauk::abi::WinEvent ev;
int rc = g_app.win.poll(&ev); int rc = g_app.win.poll(&ev);
if (rc < 0) { cb.on_close(); break; } if (rc < 0) { cb.on_close(); break; }
if (rc == 0) { montauk::sleep_ms(16); continue; } if (rc == 0) { montauk::sleep_ms(16); continue; }
@@ -143,8 +143,8 @@ DIALOGS_EXPORT bool dialogs_run_request(const dlg::Request* request, dlg::Result
} }
void (*draw_fn)() = g_app.is_print ? printdialog::draw : filedialog::draw; void (*draw_fn)() = g_app.is_print ? printdialog::draw : filedialog::draw;
void (*mouse_fn)(const Montauk::WinEvent&) = g_app.is_print ? printdialog::handle_mouse : filedialog::handle_mouse; void (*mouse_fn)(const montauk::abi::WinEvent&) = g_app.is_print ? printdialog::handle_mouse : filedialog::handle_mouse;
void (*key_fn)(const Montauk::KeyEvent&) = g_app.is_print ? printdialog::handle_key : filedialog::handle_key; void (*key_fn)(const montauk::abi::KeyEvent&) = g_app.is_print ? printdialog::handle_key : filedialog::handle_key;
draw_fn(); draw_fn();
g_app.win.present(); g_app.win.present();
+4 -4
View File
@@ -367,7 +367,7 @@ void draw_message_box() {
} }
} }
void handle_message_mouse(const Montauk::WinEvent& ev) { void handle_message_mouse(const montauk::abi::WinEvent& ev) {
MessageBoxState* st = &g_message; MessageBoxState* st = &g_message;
st->mouse_x = ev.mouse.x; st->mouse_x = ev.mouse.x;
st->mouse_y = ev.mouse.y; st->mouse_y = ev.mouse.y;
@@ -384,7 +384,7 @@ void handle_message_mouse(const Montauk::WinEvent& ev) {
} }
} }
void handle_message_key(const Montauk::KeyEvent& key) { void handle_message_key(const montauk::abi::KeyEvent& key) {
if (!key.pressed) return; if (!key.pressed) return;
MessageBoxState* st = &g_message; MessageBoxState* st = &g_message;
@@ -464,11 +464,11 @@ void draw() {
draw_message_box(); draw_message_box();
} }
void handle_mouse(const Montauk::WinEvent& ev) { void handle_mouse(const montauk::abi::WinEvent& ev) {
handle_message_mouse(ev); handle_message_mouse(ev);
} }
void handle_key(const Montauk::KeyEvent& key) { void handle_key(const montauk::abi::KeyEvent& key) {
handle_message_key(key); handle_message_key(key);
} }
+2 -2
View File
@@ -38,8 +38,8 @@ constexpr int MAX_LINE_LEN = 128;
void init(const char* message, uint8_t buttons, uint8_t default_choice = 0); void init(const char* message, uint8_t buttons, uint8_t default_choice = 0);
void preferred_size(const char* title, int* out_w, int* out_h); void preferred_size(const char* title, int* out_w, int* out_h);
void draw(); void draw();
void handle_mouse(const Montauk::WinEvent& ev); void handle_mouse(const montauk::abi::WinEvent& ev);
void handle_key(const Montauk::KeyEvent& key); void handle_key(const montauk::abi::KeyEvent& key);
void dismiss(); void dismiss();
uint8_t selected_choice(); uint8_t selected_choice();
void cleanup(); void cleanup();
+4 -4
View File
@@ -420,7 +420,7 @@ void print_submit(PrintDialogState* st) {
dialog_finish("ok", "", job_id, msg, printer.uri, printer.name, st->copies); dialog_finish("ok", "", job_id, msg, printer.uri, printer.name, st->copies);
} }
void handle_print_mouse(const Montauk::WinEvent& ev) { void handle_print_mouse(const montauk::abi::WinEvent& ev) {
PrintDialogState* st = &g_print; PrintDialogState* st = &g_print;
st->mouse_x = ev.mouse.x; st->mouse_x = ev.mouse.x;
st->mouse_y = ev.mouse.y; st->mouse_y = ev.mouse.y;
@@ -456,7 +456,7 @@ void handle_print_mouse(const Montauk::WinEvent& ev) {
} }
} }
void handle_print_key(const Montauk::KeyEvent& key) { void handle_print_key(const montauk::abi::KeyEvent& key) {
if (!key.pressed) return; if (!key.pressed) return;
if (key.scancode == 0x01) { if (key.scancode == 0x01) {
dialog_cancel(); dialog_cancel();
@@ -505,11 +505,11 @@ void draw() {
draw_print_dialog(); draw_print_dialog();
} }
void handle_mouse(const Montauk::WinEvent& ev) { void handle_mouse(const montauk::abi::WinEvent& ev) {
handle_print_mouse(ev); handle_print_mouse(ev);
} }
void handle_key(const Montauk::KeyEvent& key) { void handle_key(const montauk::abi::KeyEvent& key) {
handle_print_key(key); handle_print_key(key);
} }

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