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progress on modem and basic todo

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This commit is contained in:
IonutParau
2026-04-07 15:55:57 +02:00
parent 82777b52b3
commit 21cd1fa4e6
6 changed files with 172 additions and 8 deletions
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5
TODO.md
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@@ -1,9 +1,10 @@
# For MVP functionality # For MVP functionality
- NCL computer states, as computers that can be turned on/off/beep/etc. - add brightness to screens, which power usage scales with, each different tier has a different max brightness as well
- write a tester OS, basically a menu with tests to run - write a tester OS, basically a menu with tests to run
- tmpfs (rework the whole thing) - finish tmpfs (rework the whole thing)
- device info - device info
- finish `computer` components
- userdata support - userdata support
# To re-evaluate # To re-evaluate

10
src/main.c
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@@ -458,6 +458,7 @@ int main(int argc, char **argv) {
} }
nn_Computer *c = nn_createComputer(u, NULL, "computer0", ramTotal, 256, 256); nn_Computer *c = nn_createComputer(u, NULL, "computer0", ramTotal, 256, 256);
nn_Component *wrappedC = nn_wrapComputer(c);
if(showStats) { if(showStats) {
// collects stats // collects stats
nn_setEnergyHandler(c, NULL, ne_energy_accumulator); nn_setEnergyHandler(c, NULL, ne_energy_accumulator);
@@ -472,6 +473,7 @@ int main(int argc, char **argv) {
//nn_setTmpAddress(c, nn_getComponentAddress(tmpfs)); //nn_setTmpAddress(c, nn_getComponentAddress(tmpfs));
nn_mountComponent(c, wrappedC, 255);
nn_mountComponent(c, screen, -1); nn_mountComponent(c, screen, -1);
nn_mountComponent(c, ocelotCard, -1); nn_mountComponent(c, ocelotCard, -1);
//nn_mountComponent(c, tmpfs, -1); //nn_mountComponent(c, tmpfs, -1);
@@ -495,6 +497,12 @@ int main(int argc, char **argv) {
size_t scrw, scrh; size_t scrw, scrh;
ncl_getScreenViewport(scrbuf, &scrw, &scrh); ncl_getScreenViewport(scrbuf, &scrw, &scrh);
ncl_ScreenFlags scrflags = ncl_getScreenFlags(scrbuf);
if((scrflags & NCL_SCREEN_ON) == 0) {
ncl_unlockScreen(scrbuf);
goto skipDrawScreen;
}
int cheight = GetScreenHeight() / scrh; int cheight = GetScreenHeight() / scrh;
if(cheight != ncl_cellHeight(gc)) { if(cheight != ncl_cellHeight(gc)) {
ncl_destroyGlyphCache(gc); ncl_destroyGlyphCache(gc);
@@ -522,6 +530,7 @@ int main(int argc, char **argv) {
ncl_unlockScreen(scrbuf); ncl_unlockScreen(scrbuf);
ncl_flushGlyphs(gc); ncl_flushGlyphs(gc);
} }
skipDrawScreen:
int statY = 10; int statY = 10;
if(sand.buf != NULL) { if(sand.buf != NULL) {
@@ -650,6 +659,7 @@ cleanup:;
nn_dropComponent(screen); nn_dropComponent(screen);
nn_dropComponent(gpuCard); nn_dropComponent(gpuCard);
nn_dropComponent(keyboard); nn_dropComponent(keyboard);
nn_dropComponent(wrappedC);
// rip the universe // rip the universe
nn_destroyUniverse(u); nn_destroyUniverse(u);
ncl_destroyGlyphCache(gc); ncl_destroyGlyphCache(gc);

13
src/ncomplib.c
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@@ -532,6 +532,7 @@ typedef struct ncl_ScreenState {
ncl_ScreenPixel *pixels; ncl_ScreenPixel *pixels;
ncl_ScreenFlags flags; ncl_ScreenFlags flags;
size_t keyboardCount; size_t keyboardCount;
double brightness;
char *keyboards[NCL_MAX_KEYBOARD]; char *keyboards[NCL_MAX_KEYBOARD];
} ncl_ScreenState; } ncl_ScreenState;
@@ -2269,11 +2270,12 @@ nn_Component *ncl_createScreen(nn_Universe *universe, const char *address, const
screen->palette = palette; screen->palette = palette;
screen->resolvedPalette = resolvedPalette; screen->resolvedPalette = resolvedPalette;
screen->pixels = pixels; screen->pixels = pixels;
screen->flags = 0; screen->flags = NCL_SCREEN_ON;
screen->depth = config->maxDepth; screen->depth = config->maxDepth;
screen->viewportWidth = screen->width; screen->viewportWidth = screen->width;
screen->viewportHeight = screen->height; screen->viewportHeight = screen->height;
screen->keyboardCount = 0; screen->keyboardCount = 0;
screen->brightness = 1;
ncl_resetScreen(screen); ncl_resetScreen(screen);
@@ -3323,6 +3325,7 @@ const char *ncl_getKeyboard(ncl_ScreenState *state,
} }
double ncl_getScreenEnergyUsage(ncl_ScreenState *state) { double ncl_getScreenEnergyUsage(ncl_ScreenState *state) {
if((state->flags & NCL_SCREEN_ON) == 0) return 0;
double sum = 0; double sum = 0;
for(int y = 1; y <= state->viewportHeight; y++) { for(int y = 1; y <= state->viewportHeight; y++) {
for(int x = 1; x <= state->viewportWidth; x++) { for(int x = 1; x <= state->viewportWidth; x++) {
@@ -3336,6 +3339,14 @@ double ncl_getScreenEnergyUsage(ncl_ScreenState *state) {
return sum; return sum;
} }
double ncl_getScreenBrightness(ncl_ScreenState *state) {
return state->brightness;
}
void ncl_setScreenBrightness(ncl_ScreenState *state, double brightness) {
state->brightness = brightness;
}
// general stuff // general stuff
bool ncl_isNCLID(const char *type) { bool ncl_isNCLID(const char *type) {

2
src/ncomplib.h
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@@ -344,5 +344,7 @@ void ncl_unmountKeyboard(ncl_ScreenState *state, const char *keyboardAddress);
bool ncl_hasKeyboard(ncl_ScreenState *state, const char *keyboardAddress); bool ncl_hasKeyboard(ncl_ScreenState *state, const char *keyboardAddress);
const char *ncl_getKeyboard(ncl_ScreenState *state, size_t idx); const char *ncl_getKeyboard(ncl_ScreenState *state, size_t idx);
double ncl_getScreenEnergyUsage(ncl_ScreenState *state); double ncl_getScreenEnergyUsage(ncl_ScreenState *state);
double ncl_getScreenBrightness(ncl_ScreenState *state);
void ncl_setScreenBrightness(ncl_ScreenState *state, double brightness);
#endif #endif

136
src/neonucleus.c
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@@ -1219,7 +1219,7 @@ nn_Exit nn_startComputer(nn_Computer *computer) {
nn_Exit err = computer->arch.handler(&req); nn_Exit err = computer->arch.handler(&req);
if(err) { if(err) {
computer->state = NN_CRASHED; computer->state = NN_CRASHED;
nn_setErrorFromExit(computer, err); if(err != NN_EBADCALL) nn_setErrorFromExit(computer, err);
return err; return err;
} }
computer->archState = req.localState; computer->archState = req.localState;
@@ -3619,6 +3619,69 @@ nn_Exit nn_pushModemMessage(nn_Computer *C, const char *modemAddress, const char
return nn_pushSignal(C, signalVals); return nn_pushSignal(C, signalVals);
} }
nn_Computer *nn_fromWrappedComputer(nn_Component *component) {
if(nn_strcmp(component->internalID, "NN_WRAPPEDCOMPUTER") == 0) {
return component->state;
}
return NULL;
}
nn_Exit nn_transferErrorFrom(nn_Exit exit, nn_Computer *from, nn_Computer *to) {
const char *err = nn_getError(from);
if(err != NULL) nn_setError(to, err);
return exit;
}
typedef enum nn_CompNum {
NN_COMPNUM_START,
NN_COMPNUM_STOP,
NN_COMPNUM_ISRUNNING,
NN_COMPNUM_GETDEVICEINFO,
NN_COMPNUM_CRASH,
NN_COMPNUM_GETARCH,
NN_COMPNUM_ISROBOT,
NN_COMPNUM_BEEP,
NN_COMPNUM_COUNT,
} nn_CompNum;
static nn_Exit nn_computerHandler(nn_ComponentRequest *req) {
if(req->action == NN_COMP_DROP) return NN_OK;
if(req->action == NN_COMP_SIGNAL) return NN_OK;
nn_Computer *target = req->state;
nn_Computer *src = req->computer;
nn_CompNum method = req->methodIdx;
if(src) nn_setError(src, "computer: not implemented yet");
return NN_EBADCALL;
}
nn_Component *nn_wrapComputer(nn_Computer *computer) {
const nn_Method methods[NN_COMPNUM_COUNT] = {
[NN_COMPNUM_START] = {"start", "function(): boolean - Attempts to turn on the computer, will return false if it is already on or it failed", NN_INDIRECT},
[NN_COMPNUM_STOP] = {"stop", "function(): boolean - Attempts to turn ooff the computer, will return false if it is already off or it failed", NN_INDIRECT},
[NN_COMPNUM_ISRUNNING] = {"isRunning", "function(): boolean - Returns whether it is running or not", NN_INDIRECT},
[NN_COMPNUM_GETDEVICEINFO] = {"getDeviceInfo", "function(): table<string, table<string, string>> - Returns a table of device information for the computer", NN_INDIRECT},
[NN_COMPNUM_CRASH] = {"crash", "function(error: string) - Will forcefully crash the computer, if it is running", NN_INDIRECT},
[NN_COMPNUM_GETARCH] = {"getArchitecture", "function(): string - Get the architecture of the computer", NN_INDIRECT},
[NN_COMPNUM_ISROBOT] = {"isRobot", "function(): boolean - Returns whether the computer is a robot", NN_INDIRECT},
[NN_COMPNUM_BEEP] = {"beep", "function(frequency?: number, duration?: number, volume?: number) - Makes the computer make a beep sound", NN_INDIRECT},
};
nn_Component *c = nn_createComponent(computer->universe, computer->address, "computer");
if(c == NULL) return NULL;
nn_setComponentState(c, computer);
nn_setComponentHandler(c, nn_computerHandler);
if(nn_setComponentTypeID(c, "NN_WRAPPEDCOMPUTER")) {
nn_dropComponent(c);
return NULL;
}
if(nn_setComponentMethodsArray(c, methods, NN_COMPNUM_COUNT)) {
nn_dropComponent(c);
return NULL;
}
return c;
}
typedef enum nn_EENum { typedef enum nn_EENum {
NN_EENUM_GETSIZE, NN_EENUM_GETSIZE,
NN_EENUM_GETDATASIZE, NN_EENUM_GETDATASIZE,
@@ -5600,6 +5663,9 @@ typedef enum nn_ModemNum {
NN_MODEMNUM_SEND, NN_MODEMNUM_SEND,
NN_MODEMNUM_BROADCAST, NN_MODEMNUM_BROADCAST,
NN_MODEMNUM_GETWAKE,
NN_MODEMNUM_SETWAKE,
NN_MODEMNUM_COUNT, NN_MODEMNUM_COUNT,
} nn_ModemNum; } nn_ModemNum;
@@ -5610,6 +5676,7 @@ typedef struct nn_ModemState {
} nn_ModemState; } nn_ModemState;
static nn_Exit nn_modemHandler(nn_ComponentRequest *req) { static nn_Exit nn_modemHandler(nn_ComponentRequest *req) {
if(req->action == NN_COMP_SIGNAL) return NN_OK;
nn_Context *ctx = req->ctx; nn_Context *ctx = req->ctx;
nn_ModemState *state = req->classState; nn_ModemState *state = req->classState;
nn_Computer *C = req->computer; nn_Computer *C = req->computer;
@@ -5632,6 +5699,37 @@ static nn_Exit nn_modemHandler(nn_ComponentRequest *req) {
mreq.state = req->state; mreq.state = req->state;
mreq.modem = &state->modem; mreq.modem = &state->modem;
mreq.localAddress = req->compAddress; mreq.localAddress = req->compAddress;
nn_Exit e;
if(req->action == NN_COMP_DROP) {
mreq.action = NN_MODEM_DROP;
state->handler(&mreq);
nn_free(ctx, state, sizeof(*state));
return NN_OK;
}
if(method == NN_MODEMNUM_ISWIRED) {
return nn_pushbool(C, isWired);
}
if(method == NN_MODEMNUM_ISWIRELESS) {
return nn_pushbool(C, isWireless);
}
if(method == NN_MODEMNUM_MAXPACKETSIZE) {
return nn_pushinteger(C, state->modem.maxPacketSize);
}
if(method == NN_MODEMNUM_MAXVALUES) {
return nn_pushinteger(C, state->modem.maxValues);
}
if(method == NN_MODEMNUM_GETSTRENGTH) {
mreq.action = NN_MODEM_GETSTRENGTH;
e = state->handler(&mreq);
if(e) return e;
req->returnCount = 1;
return nn_pushinteger(C, mreq.strength);
}
if(method == NN_MODEMNUM_MAXSTRENGTH) {
return nn_pushinteger(C, state->modem.maxRange);
}
if(C) nn_setError(C, "modem: not implemented yet"); if(C) nn_setError(C, "modem: not implemented yet");
return NN_EBADCALL; return NN_EBADCALL;
@@ -5659,6 +5757,9 @@ nn_Component *nn_createModem(nn_Universe *universe, const char *address, const n
[NN_MODEMNUM_SEND] = {"send", "function(targetAddress: string, port: integer, ...): boolean - Send a packet", NN_INDIRECT}, [NN_MODEMNUM_SEND] = {"send", "function(targetAddress: string, port: integer, ...): boolean - Send a packet", NN_INDIRECT},
[NN_MODEMNUM_BROADCAST] = {"broadcast", "function(port: integer, ...): boolean - Broadcast a packet", NN_INDIRECT}, [NN_MODEMNUM_BROADCAST] = {"broadcast", "function(port: integer, ...): boolean - Broadcast a packet", NN_INDIRECT},
[NN_MODEMNUM_GETWAKE] = {"getWakeMessage", "function(): string?, boolean - Returns the wake message, if any, and whether it is fuzzy", NN_DIRECT},
[NN_MODEMNUM_SETWAKE] = {"setWakeMessage", "function(message: string?, fuzzy: boolean) - Changes the wake-up message of the modem", NN_INDIRECT},
}; };
nn_Exit e = nn_setComponentMethodsArray( nn_Exit e = nn_setComponentMethodsArray(
@@ -5679,3 +5780,36 @@ nn_Component *nn_createModem(nn_Universe *universe, const char *address, const n
nn_setComponentHandler(c, nn_modemHandler); nn_setComponentHandler(c, nn_modemHandler);
return c; return c;
} }
nn_Modem nn_defaultWiredModem = {
.maxRange = 0,
.maxValues = 8,
.maxPacketSize = 8192,
.maxOpenPorts = 16,
.isWired = true,
.basePacketCost = 50,
.fullPacketCost = 100,
.costPerStrength = 0,
};
nn_Modem nn_defaultWirelessModems[2] = {
NN_INIT(nn_Modem) {
.maxRange = 16,
.maxValues = 8,
.maxPacketSize = 8192,
.maxOpenPorts = 16,
.isWired = true,
.basePacketCost = 100,
.fullPacketCost = 500,
.costPerStrength = 30,
},
NN_INIT(nn_Modem) {
.maxRange = 400,
.maxValues = 8,
.maxPacketSize = 8192,
.maxOpenPorts = 16,
.isWired = true,
.basePacketCost = 200,
.fullPacketCost = 1000,
.costPerStrength = 20,
},
};

14
src/neonucleus.h
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@@ -903,6 +903,14 @@ nn_Exit nn_popSignal(nn_Computer *computer, size_t *valueCount);
// The high-level API of the built-in component classes. // The high-level API of the built-in component classes.
// These components still make no assumptions about the OS, and still require handlers to connect them to the outside work. // These components still make no assumptions about the OS, and still require handlers to connect them to the outside work.
// Wrapping a computer as a component.
// It's a new instance each time.
// The computer MUST NOT be dropped before this component is fully gone.
nn_Exit nn_transferErrorFrom(nn_Exit exit, nn_Computer *from, nn_Computer *to);
nn_Computer *nn_fromWrappedComputer(nn_Component *component);
nn_Component *nn_wrapComputer(nn_Computer *computer);
// EEPROM class // EEPROM class
// reads and writes are always 1/1 // reads and writes are always 1/1
@@ -1586,10 +1594,6 @@ extern nn_Modem nn_defaultWirelessModems[2];
typedef enum nn_ModemAction { typedef enum nn_ModemAction {
// modem dropped // modem dropped
NN_MODEM_DROP, NN_MODEM_DROP,
// modem mounted to a computer, meant to bind
NN_MODEM_MOUNTED,
// modem unmounted to a computer, meant to unbind
NN_MODEM_UNMOUNTED,
// check whether a port is open // check whether a port is open
NN_MODEM_ISOPEN, NN_MODEM_ISOPEN,
// open a port // open a port
@@ -1602,6 +1606,8 @@ typedef enum nn_ModemAction {
NN_MODEM_SEND, NN_MODEM_SEND,
// get current modem strength // get current modem strength
NN_MODEM_GETSTRENGTH, NN_MODEM_GETSTRENGTH,
// set current modem strength
NN_MODEM_SETSTRENGTH,
// returns the wake message // returns the wake message
NN_MODEM_GETWAKEMESSAGE, NN_MODEM_GETWAKEMESSAGE,
// set the wake message // set the wake message