#define NX_SERVICE_ASSUME_NON_DOMAIN
#include <string.h>
#include <stdatomic.h>
#include "service_guard.h"
#include "arm/counter.h"
#include "kernel/shmem.h"
#include "runtime/hosversion.h"
#include "services/btdrv.h"
static Service g_btdrvSrv;
static bool g_btdrvSharedmemInitialized;
static SharedMemory g_btdrvSharedmem;
static BtdrvCircularBuffer *g_btdrvCircularBuffer;
static Result _btdrvCmdNoIO(u32 cmd_id);
NX_GENERATE_SERVICE_GUARD(btdrv);
Result _btdrvInitialize(void) {
Result rc=0;
rc = smGetService(&g_btdrvSrv, "btdrv");
if (R_SUCCEEDED(rc)) rc = _btdrvCmdNoIO(0); // InitializeBluetoothDriver
return rc;
}
void _btdrvCleanup(void) {
g_btdrvCircularBuffer = NULL;
shmemClose(&g_btdrvSharedmem);
serviceClose(&g_btdrvSrv);
}
Service* btdrvGetServiceSession(void) {
return &g_btdrvSrv;
}
static Result _btdrvCmdNoIO(u32 cmd_id) {
return serviceDispatch(&g_btdrvSrv, cmd_id);
}
static Result _btdrvCmdGetHandle(Handle* handle_out, u32 cmd_id) {
return serviceDispatch(&g_btdrvSrv, cmd_id,
.out_handle_attrs = { SfOutHandleAttr_HipcCopy },
.out_handles = handle_out,
);
}
static Result _btdrvCmdInU8NoOut(u8 inval, u64 cmd_id) {
return serviceDispatchIn(&g_btdrvSrv, cmd_id, inval);
}
static Result _btdrvCmdInBoolNoOut(bool inval, u32 cmd_id) {
return _btdrvCmdInU8NoOut(inval!=0, cmd_id);
}
static Result _btdrvCmdTwoInBoolsNoOut(bool flag0, bool flag1, u32 cmd_id) {
const struct {
u8 flag;
u8 flag2;
} in = { flag0!=0, flag1!=0 };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
static Result _btdrvCmdInU32NoOut(u32 inval, u32 cmd_id) {
return serviceDispatchIn(&g_btdrvSrv, cmd_id, inval);
}
static Result _btdrvCmdInAddrNoOut(BtdrvAddress addr, u32 cmd_id) {
return serviceDispatchIn(&g_btdrvSrv, cmd_id, addr);
}
static Result _btdrvCmdInAddrU8NoOut(BtdrvAddress addr, u8 inval, u32 cmd_id) {
const struct {
BtdrvAddress addr;
u8 inval;
} in = { addr, inval };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
static Result _btdrvCmdInAddrU32NoOut(BtdrvAddress addr, u32 inval, u32 cmd_id) {
const struct {
BtdrvAddress addr;
u8 pad[2];
u32 inval;
} in = { addr, {0}, inval };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
static Result _btdrvCmdInAddrU32U32NoOut(BtdrvAddress addr, u32 inval0, u32 inval1, u32 cmd_id) {
const struct {
BtdrvAddress addr;
u8 pad[2];
u32 inval0;
u32 inval1;
} in = { addr, {0}, inval0, inval1 };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
static Result _btdrvCmdInLeConnectionParameterNoOut(const BtdrvLeConnectionParams *param, u32 cmd_id) {
return serviceDispatchIn(&g_btdrvSrv, cmd_id, *param);
}
static Result _btdrvCmdInUuidNoOut(const BtdrvGattAttributeUuid *uuid, u32 cmd_id) {
return serviceDispatchIn(&g_btdrvSrv, cmd_id, *uuid);
}
static Result _btdrvCmdNoInOutU8(u8 *out, u32 cmd_id) {
return serviceDispatchOut(&g_btdrvSrv, cmd_id, *out);
}
static Result _btdrvCmdNoInOutBool(bool *out, u32 cmd_id) {
u8 tmp=0;
Result rc = _btdrvCmdNoInOutU8(&tmp, cmd_id);
if (R_SUCCEEDED(rc) && out) *out = tmp & 1;
return rc;
}
static Result _btdrvCmdInU32OutU32(u32 inval, u32 *out, u32 cmd_id) {
return serviceDispatchInOut(&g_btdrvSrv, cmd_id, inval, *out);
}
static Result _btdrvCmdGetEvent(Event* out_event, bool autoclear, u32 cmd_id) {
Handle tmp_handle = INVALID_HANDLE;
Result rc = 0;
rc = _btdrvCmdGetHandle(&tmp_handle, cmd_id);
if (R_SUCCEEDED(rc)) eventLoadRemote(out_event, tmp_handle, autoclear);
return rc;
}
static Result _btdrvCmdInU32OutEvent(u32 inval, Event* out_event, bool autoclear, u32 cmd_id) {
Handle tmp_handle = INVALID_HANDLE;
Result rc = serviceDispatchIn(&g_btdrvSrv, cmd_id, inval,
.out_handle_attrs = { SfOutHandleAttr_HipcCopy },
.out_handles = &tmp_handle,
);
if (R_SUCCEEDED(rc)) eventLoadRemote(out_event, tmp_handle, autoclear);
return rc;
}
static Result _btdrvCmdInBufPtrFixed(const void* buffer, size_t size, u32 cmd_id) {
return serviceDispatch(&g_btdrvSrv, cmd_id,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In | SfBufferAttr_FixedSize },
.buffers = { { buffer, size } },
);
}
static Result _btdrvCmdOutBufAliasFixed(void* buffer, size_t size, u32 cmd_id) {
return serviceDispatch(&g_btdrvSrv, cmd_id,
.buffer_attrs = { SfBufferAttr_HipcMapAlias | SfBufferAttr_Out | SfBufferAttr_FixedSize },
.buffers = { { buffer, size } },
);
}
static Result _btdrvCmdOutU32OutBuf(void* buffer, size_t size, u32 *out, u32 cmd_id) {
return serviceDispatchOut(&g_btdrvSrv, cmd_id, *out,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_Out },
.buffers = { { buffer, size } },
);
}
static Result _btdrvGattNotification(u32 connection_handle, bool primary_service, const BtdrvGattId *id0, const BtdrvGattId *id1, u32 cmd_id) {
const struct {
u8 primary_service;
u8 pad[3];
u32 connection_handle;
BtdrvGattId id0;
BtdrvGattId id1;
} in = { primary_service!=0, {0}, connection_handle, *id0, *id1 };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
Result btdrvInitializeBluetooth(Event* out_event) {
return _btdrvCmdGetEvent(out_event, true, 1);
}
Result btdrvEnableBluetooth(void) {
return _btdrvCmdNoIO(2);
}
Result btdrvDisableBluetooth(void) {
return _btdrvCmdNoIO(3);
}
Result btdrvFinalizeBluetooth(void) {
return _btdrvCmdNoIO(4);
}
Result btdrvLegacyGetAdapterProperties(BtdrvAdapterPropertyOld *properties) {
if (hosversionAtLeast(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return serviceDispatch(&g_btdrvSrv, 5,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_Out | SfBufferAttr_FixedSize },
.buffers = { { properties, sizeof(*properties) } },
);
}
Result btdrvGetAdapterProperties(BtdrvAdapterPropertySet *properties) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return serviceDispatch(&g_btdrvSrv, 5,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_Out | SfBufferAttr_FixedSize },
.buffers = { { properties, sizeof(*properties) } },
);
}
Result btdrvLegacyGetAdapterProperty(BtdrvBluetoothPropertyType type, void* buffer, size_t size) {
if (hosversionAtLeast(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 tmp=type;
return serviceDispatchIn(&g_btdrvSrv, 6, tmp,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_Out },
.buffers = { { buffer, size } },
);
}
Result btdrvGetAdapterProperty(BtdrvAdapterPropertyType type, BtdrvAdapterProperty *property) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 tmp=type;
return serviceDispatchIn(&g_btdrvSrv, 6, tmp,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_Out | SfBufferAttr_FixedSize },
.buffers = { { property, sizeof(*property) } },
);
}
Result btdrvLegacySetAdapterProperty(BtdrvBluetoothPropertyType type, const void* buffer, size_t size) {
if (hosversionAtLeast(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 tmp=type;
return serviceDispatchIn(&g_btdrvSrv, 7, tmp,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In },
.buffers = { { buffer, size } },
);
}
Result btdrvSetAdapterProperty(BtdrvAdapterPropertyType type, const BtdrvAdapterProperty *property) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 tmp=type;
return serviceDispatchIn(&g_btdrvSrv, 7, tmp,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In | SfBufferAttr_FixedSize },
.buffers = { { property, sizeof(*property) } },
);
}
Result btdrvLegacyStartInquiry(void) {
if (hosversionAtLeast(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdNoIO(8);
}
Result btdrvStartInquiry(u32 services, s64 duration) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
const struct {
u32 services;
s64 duration;
} in = { services, duration };
return serviceDispatchIn(&g_btdrvSrv, 8, in);
}
Result btdrvStopInquiry(void) {
return _btdrvCmdNoIO(9);
}
Result btdrvCreateBond(BtdrvAddress addr, u32 type) {
if (hosversionBefore(9,0,0)) {
return serviceDispatchIn(&g_btdrvSrv, 10, addr,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In | SfBufferAttr_FixedSize },
.buffers = { { &type, sizeof(type) } },
);
}
return _btdrvCmdInAddrU32NoOut(addr, type, 10);
}
Result btdrvRemoveBond(BtdrvAddress addr) {
return _btdrvCmdInAddrNoOut(addr, 11);
}
Result btdrvCancelBond(BtdrvAddress addr) {
return _btdrvCmdInAddrNoOut(addr, 12);
}
Result btdrvLegacyRespondToPinRequest(BtdrvAddress addr, bool flag, const BtdrvBluetoothPinCode *pin_code, u8 length) {
if (hosversionAtLeast(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
const struct {
BtdrvAddress addr;
u8 flag;
u8 length;
BtdrvBluetoothPinCode pin_code;
} in = { addr, flag!=0, length, *pin_code };
return serviceDispatchIn(&g_btdrvSrv, 13, in);
}
Result btdrvRespondToPinRequest(BtdrvAddress addr, const BtdrvPinCode *pin_code) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
const struct {
BtdrvAddress addr;
BtdrvPinCode pin_code;
} in = { addr, *pin_code };
return serviceDispatchIn(&g_btdrvSrv, 13, in);
}
Result btdrvRespondToSspRequest(BtdrvAddress addr, u32 variant, bool accept, u32 passkey) {
if (hosversionBefore(12,0,0)) {
const struct {
BtdrvAddress addr;
u8 variant;
u8 accept;
u32 passkey;
} in = { addr, variant, accept!=0, passkey };
return serviceDispatchIn(&g_btdrvSrv, 14, in);
}
else {
const struct {
BtdrvAddress addr;
u8 accept;
u32 variant;
u32 passkey;
} in = { addr, accept!=0, variant, passkey };
return serviceDispatchIn(&g_btdrvSrv, 14, in);
}
}
Result btdrvGetEventInfo(void* buffer, size_t size, BtdrvEventType *type) {
return _btdrvCmdOutU32OutBuf(buffer, size, type, 15);
}
Result btdrvInitializeHid(Event* out_event) {
Handle tmp_handle = INVALID_HANDLE;
Result rc = 0;
u16 tmp=0x1;
if (R_SUCCEEDED(rc)) {
rc = serviceDispatchIn(&g_btdrvSrv, 16, tmp,
.out_handle_attrs = { SfOutHandleAttr_HipcCopy },
.out_handles = &tmp_handle,
);
}
if (R_SUCCEEDED(rc)) eventLoadRemote(out_event, tmp_handle, true);
return rc;
}
Result btdrvOpenHidConnection(BtdrvAddress addr) {
return _btdrvCmdInAddrNoOut(addr, 17);
}
Result btdrvCloseHidConnection(BtdrvAddress addr) {
return _btdrvCmdInAddrNoOut(addr, 18);
}
Result btdrvWriteHidData(BtdrvAddress addr, const BtdrvHidReport *buffer) {
size_t size = hosversionBefore(9,0,0) ? sizeof(BtdrvHidData) : sizeof(BtdrvHidReport);
return serviceDispatchIn(&g_btdrvSrv, 19, addr,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In | SfBufferAttr_FixedSize },
.buffers = { { buffer, size } },
);
}
Result btdrvWriteHidData2(BtdrvAddress addr, const void* buffer, size_t size) {
return serviceDispatchIn(&g_btdrvSrv, 20, addr,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In },
.buffers = { { buffer, size } },
);
}
Result btdrvSetHidReport(BtdrvAddress addr, BtdrvBluetoothHhReportType type, const BtdrvHidReport *buffer) {
size_t size = hosversionBefore(9,0,0) ? sizeof(BtdrvHidData) : sizeof(BtdrvHidReport);
const struct {
BtdrvAddress addr;
u8 pad[2];
u32 type;
} in = { addr, {0}, type };
return serviceDispatchIn(&g_btdrvSrv, 21, in,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In | SfBufferAttr_FixedSize },
.buffers = { { buffer, size } },
);
}
Result btdrvGetHidReport(BtdrvAddress addr, u8 report_id, BtdrvBluetoothHhReportType type) {
const struct {
BtdrvAddress addr;
u8 report_id;
u8 pad;
u32 type;
} in = { addr, report_id, 0, type };
return serviceDispatchIn(&g_btdrvSrv, 22, in);
}
Result btdrvTriggerConnection(BtdrvAddress addr, u16 unk) {
if (hosversionBefore(9,0,0)) return _btdrvCmdInAddrNoOut(addr, 23);
const struct {
BtdrvAddress addr;
u16 unk;
} in = { addr, unk };
return serviceDispatchIn(&g_btdrvSrv, 23, in);
}
Result btdrvAddPairedDeviceInfo(const SetSysBluetoothDevicesSettings *settings) {
return _btdrvCmdInBufPtrFixed(settings, sizeof(*settings), 24);
}
Result btdrvGetPairedDeviceInfo(BtdrvAddress addr, SetSysBluetoothDevicesSettings *settings) {
return serviceDispatchIn(&g_btdrvSrv, 25, addr,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_Out | SfBufferAttr_FixedSize },
.buffers = { { settings, sizeof(*settings) } },
);
}
Result btdrvFinalizeHid(void) {
return _btdrvCmdNoIO(26);
}
Result btdrvGetHidEventInfo(void* buffer, size_t size, BtdrvHidEventType *type) {
u32 tmp=0;
Result rc = _btdrvCmdOutU32OutBuf(buffer, size, &tmp, 27);
if (R_SUCCEEDED(rc) && type) *type = tmp;
return rc;
}
Result btdrvSetTsi(BtdrvAddress addr, u8 tsi) {
return _btdrvCmdInAddrU8NoOut(addr, tsi, 28);
}
Result btdrvEnableBurstMode(BtdrvAddress addr, bool flag) {
return _btdrvCmdInAddrU8NoOut(addr, flag!=0, 29);
}
Result btdrvSetZeroRetransmission(BtdrvAddress addr, u8 *report_ids, u8 count) {
return serviceDispatchIn(&g_btdrvSrv, 30, addr,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In },
.buffers = { { report_ids, count } },
);
}
Result btdrvEnableMcMode(bool flag) {
return _btdrvCmdInBoolNoOut(flag, 31);
}
Result btdrvEnableLlrScan(void) {
return _btdrvCmdNoIO(32);
}
Result btdrvDisableLlrScan(void) {
return _btdrvCmdNoIO(33);
}
Result btdrvEnableRadio(bool flag) {
return _btdrvCmdInBoolNoOut(flag, 34);
}
Result btdrvSetVisibility(bool inquiry_scan, bool page_scan) {
return _btdrvCmdTwoInBoolsNoOut(inquiry_scan, page_scan, 35);
}
Result btdrvEnableTbfcScan(bool flag) {
if (hosversionBefore(4,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInBoolNoOut(flag, 36);
}
Result btdrvRegisterHidReportEvent(Event* out_event) {
Result rc=0;
Handle tmphandle=0;
if (hosversionAtLeast(7,0,0)) {
if (!g_btdrvSharedmemInitialized) {
rc = _btdrvCmdGetHandle(&tmphandle, 38); // GetHidReportEventInfo
if (R_SUCCEEDED(rc)) {
shmemLoadRemote(&g_btdrvSharedmem, tmphandle, 0x3000, Perm_Rw);
rc = shmemMap(&g_btdrvSharedmem);
}
if (R_SUCCEEDED(rc)) {
g_btdrvSharedmemInitialized = true;
g_btdrvCircularBuffer = shmemGetAddr(&g_btdrvSharedmem);
}
else shmemClose(&g_btdrvSharedmem);
}
else {
while (btdrvCircularBufferRead(g_btdrvCircularBuffer)) btdrvCircularBufferFree(g_btdrvCircularBuffer);
}
}
u32 cmd_id = hosversionBefore(4,0,0) ? 36 : 37;
if (R_SUCCEEDED(rc)) rc = _btdrvCmdGetEvent(out_event, true, cmd_id); // RegisterHidReportEvent
return rc;
}
Result btdrvGetHidReportEventInfo(void* buffer, size_t size, BtdrvHidEventType *type) {
if (hosversionAtLeast(7,0,0)) {
BtdrvHidReportEventInfo *info = (BtdrvHidReportEventInfo*)buffer;
BtdrvHidReportEventInfoBufferData *data_ptr = NULL;
memset(buffer, 0, size);
if (g_btdrvCircularBuffer==NULL) return MAKERESULT(Module_Libnx, LibnxError_NotInitialized);
for (; (data_ptr = btdrvCircularBufferRead(g_btdrvCircularBuffer)); btdrvCircularBufferFree(g_btdrvCircularBuffer)) {
*type = data_ptr->hdr.type;
if (*type == BtdrvHidEventType_Data) {
if (armTicksToNs(armGetSystemTick() - data_ptr->hdr.tick) >= 100000001) continue;
}
break;
}
if (data_ptr == NULL) {
*type = BtdrvHidEventType_Data;
return 0;
}
bool is_old = hosversionBefore(12,0,0);
if ((is_old && *type == BtdrvHidEventTypeOld_GetReport) || (!is_old && *type == BtdrvHidEventType_GetReport)) {
if (hosversionBefore(9,0,0)) memcpy(info->get_report.v1.rawdata, data_ptr->data.get_report.v1.rawdata, sizeof(info->get_report.v1.rawdata));
else memcpy(info->get_report.v9.rawdata, data_ptr->data.get_report.v9.rawdata, sizeof(info->get_report.v9.rawdata));
}
else if ((is_old && *type == BtdrvHidEventTypeOld_SetReport) || (!is_old && *type == BtdrvHidEventType_SetReport)) memcpy(info->set_report.rawdata, data_ptr->data.set_report.rawdata, sizeof(info->set_report.rawdata));
else if ((is_old && *type == BtdrvHidEventTypeOld_Data) || (!is_old && *type == BtdrvHidEventType_Data)) {
u16 tmpsize = hosversionBefore(9,0,0) ? data_ptr->data.data_report.v7.report.size : data_ptr->data.data_report.v9.report.size;
if (size < 0xE) return MAKERESULT(Module_Libnx, LibnxError_BadInput);
if (tmpsize > size-0xE) tmpsize = size-0xE;
if (hosversionBefore(9,0,0)) info->data_report.v7.report.size = tmpsize;
else {
info->data_report.v9.res = 0;
info->data_report.v9.report.size = tmpsize;
}
if (hosversionBefore(9,0,0)) memcpy(info->data_report.v7.report.data, data_ptr->data.data_report.v7.report.data, tmpsize);
else memcpy(info->data_report.v9.report.data, data_ptr->data.data_report.v9.report.data, tmpsize);
if (hosversionBefore(9,0,0)) memcpy(&info->data_report.v7.addr, &data_ptr->data.data_report.v7.addr, sizeof(BtdrvAddress));
else memcpy(&info->data_report.v9.addr, &data_ptr->data.data_report.v9.addr, sizeof(BtdrvAddress));
}
else return MAKERESULT(Module_Libnx, LibnxError_ShouldNotHappen); // sdknso would Abort here.
btdrvCircularBufferFree(g_btdrvCircularBuffer);
return 0;
}
u32 tmp_type=0;
u32 cmd_id = hosversionBefore(4,0,0) ? 37 : 38;
Result rc = _btdrvCmdOutU32OutBuf(buffer, size, &tmp_type, cmd_id);
if (R_SUCCEEDED(rc) && type) *type = tmp_type;
return rc;
}
void* btdrvGetHidReportEventInfoSharedmemAddr(void) {
return g_btdrvCircularBuffer;
}
Result btdrvGetLatestPlr(BtdrvPlrList *out) {
u32 cmd_id = hosversionBefore(4,0,0) ? 38 : 39;
size_t size = hosversionBefore(9,0,0) ? sizeof(BtdrvPlrStatistics) : sizeof(BtdrvPlrList);
return _btdrvCmdOutBufAliasFixed(out, size, cmd_id);
}
Result btdrvGetPendingConnections(void) {
if (hosversionBefore(3,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(4,0,0) ? 39 : 40;
return _btdrvCmdNoIO(cmd_id);
}
Result btdrvGetChannelMap(BtdrvChannelMapList *out) {
if (hosversionBefore(3,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(4,0,0) ? 40 : 41;
return _btdrvCmdOutBufAliasFixed(out, sizeof(*out), cmd_id);
}
Result btdrvEnableTxPowerBoostSetting(bool flag) {
if (hosversionBefore(3,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(4,0,0) ? 41 : 42;
return _btdrvCmdInBoolNoOut(flag, cmd_id);
}
Result btdrvIsTxPowerBoostSettingEnabled(bool *out) {
if (hosversionBefore(3,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(4,0,0) ? 42 : 43;
return _btdrvCmdNoInOutBool(out, cmd_id);
}
Result btdrvEnableAfhSetting(bool flag) {
if (hosversionBefore(3,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(4,0,0) ? 43 : 44;
return _btdrvCmdInBoolNoOut(flag, cmd_id);
}
Result btdrvIsAfhSettingEnabled(bool *out) {
if (hosversionBefore(3,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(4,0,0) ? 44 : 45;
return _btdrvCmdNoInOutBool(out, cmd_id);
}
Result btdrvInitializeBle(Event* out_event) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdGetEvent(out_event, true, 46);
}
Result btdrvEnableBle(void) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdNoIO(47);
}
Result btdrvDisableBle(void) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdNoIO(48);
}
Result btdrvFinalizeBle(void) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdNoIO(49);
}
Result btdrvSetBleVisibility(bool discoverable, bool connectable) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdTwoInBoolsNoOut(discoverable, connectable, 50);
}
Result btdrvSetLeConnectionParameter(const BtdrvLeConnectionParams *param) {
if (hosversionBefore(5,0,0) || hosversionAtLeast(9,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInLeConnectionParameterNoOut(param, 51);
}
Result btdrvSetBleConnectionParameter(BtdrvAddress addr, const BtdrvBleConnectionParameter *param, bool flag) {
if (hosversionBefore(9,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
const struct {
BtdrvAddress addr;
u8 flag;
u8 pad;
BtdrvBleConnectionParameter param;
} in = { addr, flag!=0, 0, *param };
return serviceDispatchIn(&g_btdrvSrv, 51, in);
}
Result btdrvSetLeDefaultConnectionParameter(const BtdrvLeConnectionParams *param) {
if (hosversionBefore(5,0,0) || hosversionAtLeast(9,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInLeConnectionParameterNoOut(param, 52);
}
Result btdrvSetBleDefaultConnectionParameter(const BtdrvBleConnectionParameter *param) {
if (hosversionBefore(9,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return serviceDispatchIn(&g_btdrvSrv, 52, *param);
}
Result btdrvSetBleAdvertiseData(const BtdrvBleAdvertisePacketData *data) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInBufPtrFixed(data, sizeof(*data), 53);
}
Result btdrvSetBleAdvertiseParameter(BtdrvAddress addr, u16 unk0, u16 unk1) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
const struct {
BtdrvAddress addr;
u16 unk0;
u16 unk1;
} in = { addr, unk0, unk1 };
return serviceDispatchIn(&g_btdrvSrv, 54, in);
}
Result btdrvStartBleScan(void) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdNoIO(55);
}
Result btdrvStopBleScan(void) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdNoIO(56);
}
Result btdrvAddBleScanFilterCondition(const BtdrvBleAdvertiseFilter *filter) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInBufPtrFixed(filter, sizeof(*filter), 57);
}
Result btdrvDeleteBleScanFilterCondition(const BtdrvBleAdvertiseFilter *filter) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInBufPtrFixed(filter, sizeof(*filter), 58);
}
Result btdrvDeleteBleScanFilter(u8 unk) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInU8NoOut(unk, 59);
}
Result btdrvClearBleScanFilters(void) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdNoIO(60);
}
Result btdrvEnableBleScanFilter(bool flag) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInBoolNoOut(flag, 61);
}
Result btdrvRegisterGattClient(const BtdrvGattAttributeUuid *uuid) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInUuidNoOut(uuid, 62);
}
Result btdrvUnregisterGattClient(u8 unk) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInU8NoOut(unk, 63);
}
Result btdrvUnregisterAllGattClients(void) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdNoIO(64);
}
Result btdrvConnectGattServer(u8 unk, BtdrvAddress addr, bool flag, u64 AppletResourceUserId) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
const struct {
u8 unk;
BtdrvAddress addr;
u8 flag;
u64 AppletResourceUserId;
} in = { unk, addr, flag!=0, AppletResourceUserId };
return serviceDispatchIn(&g_btdrvSrv, 65, in);
}
Result btdrvCancelConnectGattServer(u8 unk, BtdrvAddress addr, bool flag) {
if (hosversionBefore(5,1,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
const struct {
u8 unk;
BtdrvAddress addr;
u8 flag;
} in = { unk, addr, flag!=0 };
return serviceDispatchIn(&g_btdrvSrv, 66, in);
}
Result btdrvDisconnectGattServer(u32 unk) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 66 : 67;
return _btdrvCmdInU32NoOut(unk, cmd_id);
}
Result btdrvGetGattAttribute(BtdrvAddress addr, u32 unk) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 67 : 68;
if (hosversionBefore(9,0,0)) {
const struct {
BtdrvAddress addr;
u32 unk0;
} in = { addr, unk };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
return _btdrvCmdInU32NoOut(unk, cmd_id);
}
Result btdrvGetGattService(u32 unk, const BtdrvGattAttributeUuid *uuid) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 68 : 69;
const struct {
u32 unk0;
BtdrvGattAttributeUuid uuid;
} in = { unk, *uuid };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
Result btdrvConfigureAttMtu(u32 unk, u16 mtu) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 69 : 70;
const struct {
u16 mtu;
u16 pad;
u32 unk;
} in = { mtu, 0, unk };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
Result btdrvRegisterGattServer(const BtdrvGattAttributeUuid *uuid) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 70 : 71;
return _btdrvCmdInUuidNoOut(uuid, cmd_id);
}
Result btdrvUnregisterGattServer(u8 unk) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 71 : 72;
return _btdrvCmdInU8NoOut(unk, cmd_id);
}
Result btdrvConnectGattClient(u8 unk, BtdrvAddress addr, bool flag) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 72 : 73;
const struct {
u8 unk;
BtdrvAddress addr;
u8 flag;
} in = { unk, addr, flag!=0 };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
Result btdrvDisconnectGattClient(u8 unk, BtdrvAddress addr) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 73 : 74;
if (hosversionBefore(9,0,0)) {
const struct {
u8 unk0;
BtdrvAddress addr;
} in = { unk, addr };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
return serviceDispatchIn(&g_btdrvSrv, cmd_id, unk);
}
Result btdrvAddGattService(u8 unk0, const BtdrvGattAttributeUuid *uuid, u8 unk1, bool flag) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
const struct {
u8 unk0;
u8 unk1;
u8 flag;
u8 pad;
BtdrvGattAttributeUuid uuid;
} in = { unk0, unk1, flag!=0, 0, *uuid };
return serviceDispatchIn(&g_btdrvSrv, 75, in);
}
Result btdrvEnableGattService(u8 unk, const BtdrvGattAttributeUuid *uuid) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 74 : 76;
const struct {
u8 unk;
u8 pad[3];
BtdrvGattAttributeUuid uuid;
} in = { unk, {0}, *uuid };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
Result btdrvAddGattCharacteristic(u8 unk0, const BtdrvGattAttributeUuid *uuid0, const BtdrvGattAttributeUuid *uuid1, u8 unk1, u16 unk2) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
const struct {
u8 unk0;
u8 unk1;
u16 unk2;
BtdrvGattAttributeUuid uuid0;
BtdrvGattAttributeUuid uuid1;
} in = { unk0, unk1, unk2, *uuid0, *uuid1 };
return serviceDispatchIn(&g_btdrvSrv, 77, in);
}
Result btdrvAddGattDescriptor(u8 unk0, const BtdrvGattAttributeUuid *uuid0, const BtdrvGattAttributeUuid *uuid1, u16 unk1) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 76 : 78;
const struct {
u8 unk0;
u8 pad;
u16 unk1;
BtdrvGattAttributeUuid uuid0;
BtdrvGattAttributeUuid uuid1;
} in = { unk0, 0, unk1, *uuid0, *uuid1 };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
Result btdrvGetBleManagedEventInfo(void* buffer, size_t size, BtdrvBleEventType *type) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 78 : 79;
return _btdrvCmdOutU32OutBuf(buffer, size, type, cmd_id);
}
Result btdrvGetGattFirstCharacteristic(u32 unk, const BtdrvGattId *id, bool flag, const BtdrvGattAttributeUuid *uuid, u8 *out_property, BtdrvGattId *out_char_id) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 79 : 80;
const struct {
u8 flag;
u8 pad[3];
u32 unk;
BtdrvGattId id;
BtdrvGattAttributeUuid uuid;
} in = { flag!=0, {0}, unk, *id, *uuid };
struct {
u8 property;
u8 pad[3];
BtdrvGattId id;
} out;
Result rc = serviceDispatchInOut(&g_btdrvSrv, cmd_id, in, out);
if (R_SUCCEEDED(rc)) {
if (out_property) *out_property = out.property;
if (out_char_id) *out_char_id = out.id;
}
return rc;
}
Result btdrvGetGattNextCharacteristic(u32 unk, const BtdrvGattId *id0, bool flag, const BtdrvGattId *id1, const BtdrvGattAttributeUuid *uuid, u8 *out_property, BtdrvGattId *out_char_id) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 80 : 81;
const struct {
u8 flag;
u8 pad[3];
u32 unk;
BtdrvGattId id0;
BtdrvGattId id1;
BtdrvGattAttributeUuid uuid;
} in = { flag!=0, {0}, unk, *id0, *id1, *uuid };
struct {
u8 property;
u8 pad[3];
BtdrvGattId id;
} out;
Result rc = serviceDispatchInOut(&g_btdrvSrv, cmd_id, in, out);
if (R_SUCCEEDED(rc)) {
if (out_property) *out_property = out.property;
if (out_char_id) *out_char_id = out.id;
}
return rc;
}
Result btdrvGetGattFirstDescriptor(u32 unk, const BtdrvGattId *id0, bool flag, const BtdrvGattId *id1, const BtdrvGattAttributeUuid *uuid, BtdrvGattId *out_desc_id) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 81 : 82;
const struct {
u8 flag;
u8 pad[3];
u32 unk;
BtdrvGattId id0;
BtdrvGattId id1;
BtdrvGattAttributeUuid uuid;
} in = { flag!=0, {0}, unk, *id0, *id1, *uuid };
return serviceDispatchInOut(&g_btdrvSrv, cmd_id, in, *out_desc_id);
}
Result btdrvGetGattNextDescriptor(u32 unk, const BtdrvGattId *id0, bool flag, const BtdrvGattId *id1, const BtdrvGattId *id2, const BtdrvGattAttributeUuid *uuid, BtdrvGattId *out_desc_id) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 82 : 83;
const struct {
u8 flag;
u8 pad[3];
u32 unk;
BtdrvGattId id0;
BtdrvGattId id1;
BtdrvGattId id2;
BtdrvGattAttributeUuid uuid;
} in = { flag!=0, {0}, unk, *id0, *id1, *id2, *uuid };
return serviceDispatchInOut(&g_btdrvSrv, cmd_id, in, *out_desc_id);
}
Result btdrvRegisterGattManagedDataPath(const BtdrvGattAttributeUuid *uuid) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInUuidNoOut(uuid, 84);
}
Result btdrvUnregisterGattManagedDataPath(const BtdrvGattAttributeUuid *uuid) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInUuidNoOut(uuid, 85);
}
Result btdrvRegisterGattHidDataPath(const BtdrvGattAttributeUuid *uuid) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInUuidNoOut(uuid, 86);
}
Result btdrvUnregisterGattHidDataPath(const BtdrvGattAttributeUuid *uuid) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInUuidNoOut(uuid, 87);
}
Result btdrvRegisterGattDataPath(const BtdrvGattAttributeUuid *uuid) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInUuidNoOut(uuid, 88);
}
Result btdrvUnregisterGattDataPath(const BtdrvGattAttributeUuid *uuid) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 83 : 89;
return _btdrvCmdInUuidNoOut(uuid, cmd_id);
}
Result btdrvReadGattCharacteristic(u32 connection_handle, bool primary_service, const BtdrvGattId *id0, const BtdrvGattId *id1, u8 unk) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 89 : 90;
const struct {
u8 primary_service;
u8 unk;
u8 pad[2];
u32 connection_handle;
BtdrvGattId id0;
BtdrvGattId id1;
} in = { primary_service!=0, unk, {0}, connection_handle, *id0, *id1};
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
Result btdrvReadGattDescriptor(u32 connection_handle, bool primary_service, const BtdrvGattId *id0, const BtdrvGattId *id1, const BtdrvGattId *id2, u8 unk) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 90 : 91;
const struct {
u8 primary_service;
u8 unk;
u8 pad[2];
u32 connection_handle;
BtdrvGattId id0;
BtdrvGattId id1;
BtdrvGattId id2;
} in = { primary_service!=0, unk, {0}, connection_handle, *id0, *id1, *id2 };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in);
}
Result btdrvWriteGattCharacteristic(u32 connection_handle, bool primary_service, const BtdrvGattId *id0, const BtdrvGattId *id1, const void* buffer, size_t size, u8 unk, bool flag) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 91 : 92;
const struct {
u8 primary_service;
u8 unk;
u8 flag;
u8 pad;
u32 connection_handle;
BtdrvGattId id0;
BtdrvGattId id1;
} in = { primary_service!=0, unk, flag!=0, 0, connection_handle, *id0, *id1 };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In },
.buffers = { { buffer, size } },
);
}
Result btdrvWriteGattDescriptor(u32 connection_handle, bool primary_service, const BtdrvGattId *id0, const BtdrvGattId *id1, const BtdrvGattId *id2, const void* buffer, size_t size, u8 unk) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 92 : 93;
const struct {
u8 primary_service;
u8 unk;
u8 pad[2];
u32 connection_handle;
BtdrvGattId id0;
BtdrvGattId id1;
BtdrvGattId id2;
} in = { primary_service!=0, unk, {0}, connection_handle, *id0, *id1, *id2 };
return serviceDispatchIn(&g_btdrvSrv, cmd_id, in,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In },
.buffers = { { buffer, size } },
);
}
Result btdrvRegisterGattNotification(u32 connection_handle, bool primary_service, const BtdrvGattId *id0, const BtdrvGattId *id1) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvGattNotification(connection_handle, primary_service, id0, id1, 94);
}
Result btdrvUnregisterGattNotification(u32 connection_handle, bool primary_service, const BtdrvGattId *id0, const BtdrvGattId *id1) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 93 : 95;
return _btdrvGattNotification(connection_handle, primary_service, id0, id1, cmd_id);
}
Result btdrvGetLeHidEventInfo(void* buffer, size_t size, BtdrvBleEventType *type) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 95 : 96;
return _btdrvCmdOutU32OutBuf(buffer, size, type, cmd_id);
}
Result btdrvRegisterBleHidEvent(Event* out_event) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 cmd_id = hosversionBefore(5,1,0) ? 96 : 97;
return _btdrvCmdGetEvent(out_event, true, cmd_id);
}
Result btdrvSetBleScanParameter(u16 unk0, u16 unk1) {
if (hosversionBefore(5,1,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
const struct {
u16 unk0;
u16 unk1;
} in = { unk0, unk1 };
return serviceDispatchIn(&g_btdrvSrv, 98, in);
}
Result btdrvMoveToSecondaryPiconet(BtdrvAddress addr) {
if (hosversionBefore(10,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInAddrNoOut(addr, 99);
}
Result btdrvIsBluetoothEnabled(bool *out) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdNoInOutBool(out, 100);
}
Result btdrvAcquireAudioEvent(Event* out_event, bool autoclear) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdGetEvent(out_event, autoclear, 128);
}
Result btdrvGetAudioEventInfo(void* buffer, size_t size, BtdrvAudioEventType *type) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 tmp=0;
Result rc = _btdrvCmdOutU32OutBuf(buffer, size, &tmp, 129);
if (R_SUCCEEDED(rc) && type) *type = tmp;
return rc;
}
Result btdrvOpenAudioConnection(BtdrvAddress addr) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInAddrNoOut(addr, 130);
}
Result btdrvCloseAudioConnection(BtdrvAddress addr) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInAddrNoOut(addr, 131);
}
Result btdrvOpenAudioOut(BtdrvAddress addr, u32 *audio_handle) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return serviceDispatchInOut(&g_btdrvSrv, 132, addr, *audio_handle);
}
Result btdrvCloseAudioOut(u32 audio_handle) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInU32NoOut(audio_handle, 133);
}
Result btdrvAcquireAudioOutStateChangedEvent(u32 audio_handle, Event* out_event, bool autoclear) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInU32OutEvent(audio_handle, out_event, autoclear, 134);
}
Result btdrvStartAudioOut(u32 audio_handle, const BtdrvPcmParameter *pcm_param, s64 in_latency, s64 *out_latency, u64 *out1) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
const struct {
u32 audio_handle;
BtdrvPcmParameter pcm_param;
s64 latency;
} in = { audio_handle, *pcm_param, in_latency };
struct {
s64 latency;
u64 out1;
} out;
Result rc = serviceDispatchInOut(&g_btdrvSrv, 135, in, out);
if (R_SUCCEEDED(rc)) {
if (out_latency) *out_latency = out.latency;
if (out1) *out1 = out.out1;
}
return rc;
}
Result btdrvStopAudioOut(u32 audio_handle) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInU32NoOut(audio_handle, 136);
}
Result btdrvGetAudioOutState(u32 audio_handle, BtdrvAudioOutState *out) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 tmp=0;
Result rc = _btdrvCmdInU32OutU32(audio_handle, &tmp, 137);
if (R_SUCCEEDED(rc) && out) *out = tmp;
return rc;
}
Result btdrvGetAudioOutFeedingCodec(u32 audio_handle, BtdrvAudioCodec *out) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 tmp=0;
Result rc = _btdrvCmdInU32OutU32(audio_handle, &tmp, 138);
if (R_SUCCEEDED(rc) && out) *out = tmp;
return rc;
}
Result btdrvGetAudioOutFeedingParameter(u32 audio_handle, BtdrvPcmParameter *out) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return serviceDispatchInOut(&g_btdrvSrv, 139, audio_handle, *out);
}
Result btdrvAcquireAudioOutBufferAvailableEvent(u32 audio_handle, Event* out_event, bool autoclear) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInU32OutEvent(audio_handle, out_event, autoclear, 140);
}
Result btdrvSendAudioData(u32 audio_handle, const void* buffer, size_t size, u64 *transferred_size) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return serviceDispatchInOut(&g_btdrvSrv, 141, audio_handle, *transferred_size,
.buffer_attrs = { SfBufferAttr_HipcPointer | SfBufferAttr_In },
.buffers = { { buffer, size } },
);
}
Result btdrvAcquireAudioControlInputStateChangedEvent(Event* out_event, bool autoclear) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdGetEvent(out_event, autoclear, 142);
}
Result btdrvGetAudioControlInputState(BtdrvAudioControlButtonState *states, s32 count, s32 *total_out) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdOutU32OutBuf(states, count*sizeof(BtdrvAudioControlButtonState), (u32*)total_out, 143);
}
Result btdrvAcquireAudioConnectionStateChangedEvent(Event* out_event, bool autoclear) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdGetEvent(out_event, autoclear, 144);
}
Result btdrvGetConnectedAudioDevice(BtdrvAddress *addrs, s32 count, s32 *total_out) {
if (hosversionBefore(12,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdOutU32OutBuf(addrs, count*sizeof(BtdrvAddress), (u32*)total_out, 145);
}
Result btdrvCloseAudioControlInput(BtdrvAddress addr) {
if (hosversionBefore(13,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInAddrNoOut(addr, 146);
}
Result btdrvRegisterAudioControlNotification(BtdrvAddress addr, u32 event_type) {
if (hosversionBefore(13,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInAddrU32NoOut(addr, event_type, 147);
}
Result btdrvSendAudioControlPassthroughCommand(BtdrvAddress addr, u32 op_id, u32 state_type) {
if (hosversionBefore(13,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInAddrU32U32NoOut(addr, op_id, state_type, 148);
}
Result btdrvSendAudioControlSetAbsoluteVolumeCommand(BtdrvAddress addr, s32 val) {
if (hosversionBefore(13,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdInAddrU32NoOut(addr, (u32)val, 149);
}
Result btdrvIsManufacturingMode(bool *out) {
if (hosversionBefore(5,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdNoInOutBool(out, 256);
}
Result btdrvEmulateBluetoothCrash(BtdrvFatalReason reason) {
if (hosversionBefore(7,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
u32 inval = reason;
return _btdrvCmdInU32NoOut(inval, 257);
}
Result btdrvGetBleChannelMap(BtdrvChannelMapList *out) {
if (hosversionBefore(9,0,0))
return MAKERESULT(Module_Libnx, LibnxError_IncompatSysVer);
return _btdrvCmdOutBufAliasFixed(out, sizeof(*out), 258);
}
// CircularBuffer
void* btdrvCircularBufferRead(BtdrvCircularBuffer *c) {
if (c==NULL || !c->initialized) return NULL;
do {
s32 read_offset = atomic_load_explicit(&c->read_offset, memory_order_acquire);
s32 write_offset = atomic_load_explicit(&c->write_offset, memory_order_acquire);
if (read_offset == write_offset) return NULL;
u8 *data_ptr = &c->data[read_offset];
if (read_offset >= sizeof(c->data)) return NULL;
if (*data_ptr != 0xFF) return data_ptr;
else {
if (!c->initialized) return NULL;
read_offset = atomic_load_explicit(&c->read_offset, memory_order_acquire);
write_offset = atomic_load_explicit(&c->write_offset, memory_order_acquire);
if (read_offset == write_offset) continue;
data_ptr = &c->data[read_offset];
u64 tmpsize = read_offset + 0x18;
if (tmpsize < sizeof(c->data)) tmpsize += *((u64*)&data_ptr[0x10]);
if (tmpsize >= sizeof(c->data)) tmpsize = 0;
atomic_store_explicit(&c->read_offset, tmpsize, memory_order_release);
}
} while (c->initialized);
return NULL;
}
bool btdrvCircularBufferFree(BtdrvCircularBuffer *c) {
if (c==NULL || !c->initialized) return false;
s32 read_offset = atomic_load_explicit(&c->read_offset, memory_order_acquire);
s32 write_offset = atomic_load_explicit(&c->write_offset, memory_order_acquire);
if (read_offset == write_offset) return false;
u8 *data_ptr = &c->data[read_offset];
if (read_offset >= sizeof(c->data)) false;
u64 tmpsize = read_offset + 0x18;
if (tmpsize < sizeof(c->data)) tmpsize += *((u64*)&data_ptr[0x10]);
if (tmpsize >= sizeof(c->data)) tmpsize = 0;
atomic_store_explicit(&c->read_offset, tmpsize, memory_order_release);
return true;
}