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| author | ptitSeb <sebastien.chev@gmail.com> | 2024-09-09 17:03:46 +0200 |
|---|---|---|
| committer | ptitSeb <sebastien.chev@gmail.com> | 2024-09-09 17:03:46 +0200 |
| commit | 2ce5beae56b3670aaec5c5c7a9c1ebd201a403a3 (patch) | |
| tree | 54ba64ad2f69707e9b0813515e59a94c839f088d /src/wrapped/generated/wrapper.c | |
| parent | 34fcbbd7b7d1da1c8b2705655ac5897afd04c6e8 (diff) | |
| download | box64-2ce5beae56b3670aaec5c5c7a9c1ebd201a403a3.tar.gz box64-2ce5beae56b3670aaec5c5c7a9c1ebd201a403a3.zip | |
[WRAPPER] Added H as paramterand, added 2 wrapped function from libatomic (for linux BeamNG)
Diffstat (limited to 'src/wrapped/generated/wrapper.c')
| -rw-r--r-- | src/wrapped/generated/wrapper.c | 16 |
1 files changed, 10 insertions, 6 deletions
diff --git a/src/wrapped/generated/wrapper.c b/src/wrapped/generated/wrapper.c index 96186f9d..c668ed85 100644 --- a/src/wrapped/generated/wrapper.c +++ b/src/wrapped/generated/wrapper.c @@ -300,7 +300,6 @@ typedef uint32_t (*uFui_t)(uint32_t, int32_t); typedef uint32_t (*uFuu_t)(uint32_t, uint32_t); typedef uint32_t (*uFup_t)(uint32_t, void*); typedef uint32_t (*uFuS_t)(uint32_t, void*); -typedef uint32_t (*uFuM_t)(uint32_t, ...); typedef uint32_t (*uFpw_t)(void*, int16_t); typedef uint32_t (*uFpi_t)(void*, int32_t); typedef uint32_t (*uFpC_t)(void*, uint8_t); @@ -514,6 +513,7 @@ typedef void (*vFppl_t)(void*, void*, intptr_t); typedef void (*vFppL_t)(void*, void*, uintptr_t); typedef void (*vFppp_t)(void*, void*, void*); typedef void (*vFppV_t)(void*, void*, void*); +typedef void (*vFpHi_t)(void*, unsigned __int128, int32_t); typedef void (*vFSpL_t)(void*, void*, uintptr_t); typedef int8_t (*cFpdp_t)(void*, double, void*); typedef int16_t (*wFppp_t)(void*, void*, void*); @@ -618,7 +618,6 @@ typedef int32_t (*iFppl_t)(void*, void*, intptr_t); typedef int32_t (*iFppL_t)(void*, void*, uintptr_t); typedef int32_t (*iFppp_t)(void*, void*, void*); typedef int32_t (*iFpOu_t)(void*, int32_t, uint32_t); -typedef int32_t (*iFpOM_t)(void*, int32_t, ...); typedef int32_t (*iFSIi_t)(void*, int64_t, int32_t); typedef int32_t (*iFSli_t)(void*, intptr_t, int32_t); typedef int32_t (*iFSpL_t)(void*, void*, uintptr_t); @@ -650,6 +649,7 @@ typedef uint32_t (*uFuup_t)(uint32_t, uint32_t, void*); typedef uint32_t (*uFufp_t)(uint32_t, float, void*); typedef uint32_t (*uFupu_t)(uint32_t, void*, uint32_t); typedef uint32_t (*uFupp_t)(uint32_t, void*, void*); +typedef uint32_t (*uFuNN_t)(uint32_t, ...); typedef uint32_t (*uFpii_t)(void*, int32_t, int32_t); typedef uint32_t (*uFpiu_t)(void*, int32_t, uint32_t); typedef uint32_t (*uFpip_t)(void*, int32_t, void*); @@ -810,7 +810,6 @@ typedef void* (*pFppl_t)(void*, void*, intptr_t); typedef void* (*pFppL_t)(void*, void*, uintptr_t); typedef void* (*pFppp_t)(void*, void*, void*); typedef void* (*pFppA_t)(void*, void*, void*); -typedef void* (*pFpOM_t)(void*, int32_t, ...); typedef void* (*pFpbi_t)(void*, void*, int32_t); typedef void* (*pFSpl_t)(void*, void*, intptr_t); typedef void* (*pFbCC_t)(void*, uint8_t, uint8_t); @@ -995,6 +994,7 @@ typedef void (*vFpppd_t)(void*, void*, void*, double); typedef void (*vFpppl_t)(void*, void*, void*, intptr_t); typedef void (*vFpppL_t)(void*, void*, void*, uintptr_t); typedef void (*vFpppp_t)(void*, void*, void*, void*); +typedef void (*vFHHpi_t)(unsigned __int128, unsigned __int128, void*, int32_t); typedef int8_t (*cFpipp_t)(void*, int32_t, void*, void*); typedef int32_t (*iFEiip_t)(x64emu_t*, int32_t, int32_t, void*); typedef int32_t (*iFEiiN_t)(x64emu_t*, int32_t, int32_t, ...); @@ -1161,6 +1161,7 @@ typedef int32_t (*iFpppC_t)(void*, void*, void*, uint8_t); typedef int32_t (*iFpppu_t)(void*, void*, void*, uint32_t); typedef int32_t (*iFpppL_t)(void*, void*, void*, uintptr_t); typedef int32_t (*iFpppp_t)(void*, void*, void*, void*); +typedef int32_t (*iFpONN_t)(void*, int32_t, ...); typedef int32_t (*iFSpiL_t)(void*, void*, int32_t, uintptr_t); typedef int32_t (*iFbupp_t)(void*, uint32_t, void*, void*); typedef int64_t (*IFEpIi_t)(x64emu_t*, void*, int64_t, int32_t); @@ -1351,6 +1352,7 @@ typedef void* (*pFpppi_t)(void*, void*, void*, int32_t); typedef void* (*pFpppu_t)(void*, void*, void*, uint32_t); typedef void* (*pFpppL_t)(void*, void*, void*, uintptr_t); typedef void* (*pFpppp_t)(void*, void*, void*, void*); +typedef void* (*pFpONN_t)(void*, int32_t, ...); typedef void* (*pFpbii_t)(void*, void*, int32_t, int32_t); typedef void* (*pFSppi_t)(void*, void*, void*, int32_t); typedef void* (*pFbCuW_t)(void*, uint8_t, uint32_t, uint16_t); @@ -3492,7 +3494,6 @@ void uFui(x64emu_t *emu, uintptr_t fcn) { uFui_t fn = (uFui_t)fcn; R_RAX=(uint32 void uFuu(x64emu_t *emu, uintptr_t fcn) { uFuu_t fn = (uFuu_t)fcn; R_RAX=(uint32_t)fn((uint32_t)R_RDI, (uint32_t)R_RSI); } void uFup(x64emu_t *emu, uintptr_t fcn) { uFup_t fn = (uFup_t)fcn; R_RAX=(uint32_t)fn((uint32_t)R_RDI, (void*)R_RSI); } void uFuS(x64emu_t *emu, uintptr_t fcn) { uFuS_t fn = (uFuS_t)fcn; R_RAX=(uint32_t)fn((uint32_t)R_RDI, io_convert((void*)R_RSI)); } -void uFuM(x64emu_t *emu, uintptr_t fcn) { uFuM_t fn = (uFuM_t)fcn; R_RAX=(uint32_t)fn((uint32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); } void uFpw(x64emu_t *emu, uintptr_t fcn) { uFpw_t fn = (uFpw_t)fcn; R_RAX=(uint32_t)fn((void*)R_RDI, (int16_t)R_RSI); } void uFpi(x64emu_t *emu, uintptr_t fcn) { uFpi_t fn = (uFpi_t)fcn; R_RAX=(uint32_t)fn((void*)R_RDI, (int32_t)R_RSI); } void uFpC(x64emu_t *emu, uintptr_t fcn) { uFpC_t fn = (uFpC_t)fcn; R_RAX=(uint32_t)fn((void*)R_RDI, (uint8_t)R_RSI); } @@ -3706,6 +3707,7 @@ void vFppl(x64emu_t *emu, uintptr_t fcn) { vFppl_t fn = (vFppl_t)fcn; fn((void*) void vFppL(x64emu_t *emu, uintptr_t fcn) { vFppL_t fn = (vFppL_t)fcn; fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); } void vFppp(x64emu_t *emu, uintptr_t fcn) { vFppp_t fn = (vFppp_t)fcn; fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX); } void vFppV(x64emu_t *emu, uintptr_t fcn) { vFppV_t fn = (vFppV_t)fcn; fn((void*)R_RDI, (void*)R_RSI, (void*)(R_RSP + 8)); } +void vFpHi(x64emu_t *emu, uintptr_t fcn) { vFpHi_t fn = (vFpHi_t)fcn; fn((void*)R_RDI, (unsigned __int128)R_RSI + ((unsigned __int128)R_RDX << 64), (int32_t)R_RCX); } void vFSpL(x64emu_t *emu, uintptr_t fcn) { vFSpL_t fn = (vFSpL_t)fcn; fn(io_convert((void*)R_RDI), (void*)R_RSI, (uintptr_t)R_RDX); } void cFpdp(x64emu_t *emu, uintptr_t fcn) { cFpdp_t fn = (cFpdp_t)fcn; R_RAX=fn((void*)R_RDI, emu->xmm[0].d[0], (void*)R_RSI); } void wFppp(x64emu_t *emu, uintptr_t fcn) { wFppp_t fn = (wFppp_t)fcn; R_RAX=fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX); } @@ -3810,7 +3812,6 @@ void iFppl(x64emu_t *emu, uintptr_t fcn) { iFppl_t fn = (iFppl_t)fcn; R_RAX=(int void iFppL(x64emu_t *emu, uintptr_t fcn) { iFppL_t fn = (iFppL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); } void iFppp(x64emu_t *emu, uintptr_t fcn) { iFppp_t fn = (iFppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX); } void iFpOu(x64emu_t *emu, uintptr_t fcn) { iFpOu_t fn = (iFpOu_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, of_convert((int32_t)R_RSI), (uint32_t)R_RDX); } -void iFpOM(x64emu_t *emu, uintptr_t fcn) { iFpOM_t fn = (iFpOM_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, of_convert((int32_t)R_RSI), (void*)R_RDX, (void*)R_RCX); } void iFSIi(x64emu_t *emu, uintptr_t fcn) { iFSIi_t fn = (iFSIi_t)fcn; R_RAX=(int32_t)fn(io_convert((void*)R_RDI), (int64_t)R_RSI, (int32_t)R_RDX); } void iFSli(x64emu_t *emu, uintptr_t fcn) { iFSli_t fn = (iFSli_t)fcn; R_RAX=(int32_t)fn(io_convert((void*)R_RDI), (intptr_t)R_RSI, (int32_t)R_RDX); } void iFSpL(x64emu_t *emu, uintptr_t fcn) { iFSpL_t fn = (iFSpL_t)fcn; R_RAX=(int32_t)fn(io_convert((void*)R_RDI), (void*)R_RSI, (uintptr_t)R_RDX); } @@ -3842,6 +3843,7 @@ void uFuup(x64emu_t *emu, uintptr_t fcn) { uFuup_t fn = (uFuup_t)fcn; R_RAX=(uin void uFufp(x64emu_t *emu, uintptr_t fcn) { uFufp_t fn = (uFufp_t)fcn; R_RAX=(uint32_t)fn((uint32_t)R_RDI, emu->xmm[0].f[0], (void*)R_RSI); } void uFupu(x64emu_t *emu, uintptr_t fcn) { uFupu_t fn = (uFupu_t)fcn; R_RAX=(uint32_t)fn((uint32_t)R_RDI, (void*)R_RSI, (uint32_t)R_RDX); } void uFupp(x64emu_t *emu, uintptr_t fcn) { uFupp_t fn = (uFupp_t)fcn; R_RAX=(uint32_t)fn((uint32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); } +void uFuNN(x64emu_t *emu, uintptr_t fcn) { uFuNN_t fn = (uFuNN_t)fcn; R_RAX=(uint32_t)fn((uint32_t)R_RDI, (void*)R_RSI, (void*)R_RDX); } void uFpii(x64emu_t *emu, uintptr_t fcn) { uFpii_t fn = (uFpii_t)fcn; R_RAX=(uint32_t)fn((void*)R_RDI, (int32_t)R_RSI, (int32_t)R_RDX); } void uFpiu(x64emu_t *emu, uintptr_t fcn) { uFpiu_t fn = (uFpiu_t)fcn; R_RAX=(uint32_t)fn((void*)R_RDI, (int32_t)R_RSI, (uint32_t)R_RDX); } void uFpip(x64emu_t *emu, uintptr_t fcn) { uFpip_t fn = (uFpip_t)fcn; R_RAX=(uint32_t)fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX); } @@ -4002,7 +4004,6 @@ void pFppl(x64emu_t *emu, uintptr_t fcn) { pFppl_t fn = (pFppl_t)fcn; R_RAX=(uin void pFppL(x64emu_t *emu, uintptr_t fcn) { pFppL_t fn = (pFppL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (uintptr_t)R_RDX); } void pFppp(x64emu_t *emu, uintptr_t fcn) { pFppp_t fn = (pFppp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX); } void pFppA(x64emu_t *emu, uintptr_t fcn) { pFppA_t fn = (pFppA_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX); } -void pFpOM(x64emu_t *emu, uintptr_t fcn) { pFpOM_t fn = (pFpOM_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, of_convert((int32_t)R_RSI), (void*)R_RDX, (void*)R_RCX); } void pFpbi(x64emu_t *emu, uintptr_t fcn) { pFpbi_t fn = (pFpbi_t)fcn; void *aligned_xcb = align_xcb_connection((void*)R_RSI); R_RAX=(uintptr_t)fn((void*)R_RDI, aligned_xcb, (int32_t)R_RDX); unalign_xcb_connection(aligned_xcb, (void*)R_RSI); } void pFSpl(x64emu_t *emu, uintptr_t fcn) { pFSpl_t fn = (pFSpl_t)fcn; R_RAX=(uintptr_t)fn(io_convert((void*)R_RDI), (void*)R_RSI, (intptr_t)R_RDX); } void pFbCC(x64emu_t *emu, uintptr_t fcn) { pFbCC_t fn = (pFbCC_t)fcn; void *aligned_xcb = align_xcb_connection((void*)R_RDI); R_RAX=(uintptr_t)fn(aligned_xcb, (uint8_t)R_RSI, (uint8_t)R_RDX); unalign_xcb_connection(aligned_xcb, (void*)R_RDI); } @@ -4187,6 +4188,7 @@ void vFpppd(x64emu_t *emu, uintptr_t fcn) { vFpppd_t fn = (vFpppd_t)fcn; fn((voi void vFpppl(x64emu_t *emu, uintptr_t fcn) { vFpppl_t fn = (vFpppl_t)fcn; fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (intptr_t)R_RCX); } void vFpppL(x64emu_t *emu, uintptr_t fcn) { vFpppL_t fn = (vFpppL_t)fcn; fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); } void vFpppp(x64emu_t *emu, uintptr_t fcn) { vFpppp_t fn = (vFpppp_t)fcn; fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX); } +void vFHHpi(x64emu_t *emu, uintptr_t fcn) { vFHHpi_t fn = (vFHHpi_t)fcn; fn((unsigned __int128)R_RDI + ((unsigned __int128)R_RSI << 64), (unsigned __int128)R_RDX + ((unsigned __int128)R_RCX << 64), (void*)R_R8, (int32_t)R_R9); } void cFpipp(x64emu_t *emu, uintptr_t fcn) { cFpipp_t fn = (cFpipp_t)fcn; R_RAX=fn((void*)R_RDI, (int32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); } void iFEiip(x64emu_t *emu, uintptr_t fcn) { iFEiip_t fn = (iFEiip_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX); } void iFEiiN(x64emu_t *emu, uintptr_t fcn) { iFEiiN_t fn = (iFEiiN_t)fcn; R_RAX=(int32_t)fn(emu, (int32_t)R_RDI, (int32_t)R_RSI, (void*)R_RDX); } @@ -4353,6 +4355,7 @@ void iFpppC(x64emu_t *emu, uintptr_t fcn) { iFpppC_t fn = (iFpppC_t)fcn; R_RAX=( void iFpppu(x64emu_t *emu, uintptr_t fcn) { iFpppu_t fn = (iFpppu_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uint32_t)R_RCX); } void iFpppL(x64emu_t *emu, uintptr_t fcn) { iFpppL_t fn = (iFpppL_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); } void iFpppp(x64emu_t *emu, uintptr_t fcn) { iFpppp_t fn = (iFpppp_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX); } +void iFpONN(x64emu_t *emu, uintptr_t fcn) { iFpONN_t fn = (iFpONN_t)fcn; R_RAX=(int32_t)fn((void*)R_RDI, of_convert((int32_t)R_RSI), (void*)R_RDX, (void*)R_RCX); } void iFSpiL(x64emu_t *emu, uintptr_t fcn) { iFSpiL_t fn = (iFSpiL_t)fcn; R_RAX=(int32_t)fn(io_convert((void*)R_RDI), (void*)R_RSI, (int32_t)R_RDX, (uintptr_t)R_RCX); } void iFbupp(x64emu_t *emu, uintptr_t fcn) { iFbupp_t fn = (iFbupp_t)fcn; void *aligned_xcb = align_xcb_connection((void*)R_RDI); R_RAX=(int32_t)fn(aligned_xcb, (uint32_t)R_RSI, (void*)R_RDX, (void*)R_RCX); unalign_xcb_connection(aligned_xcb, (void*)R_RDI); } void IFEpIi(x64emu_t *emu, uintptr_t fcn) { IFEpIi_t fn = (IFEpIi_t)fcn; R_RAX=(int64_t)fn(emu, (void*)R_RDI, (int64_t)R_RSI, (int32_t)R_RDX); } @@ -4543,6 +4546,7 @@ void pFpppi(x64emu_t *emu, uintptr_t fcn) { pFpppi_t fn = (pFpppi_t)fcn; R_RAX=( void pFpppu(x64emu_t *emu, uintptr_t fcn) { pFpppu_t fn = (pFpppu_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uint32_t)R_RCX); } void pFpppL(x64emu_t *emu, uintptr_t fcn) { pFpppL_t fn = (pFpppL_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (uintptr_t)R_RCX); } void pFpppp(x64emu_t *emu, uintptr_t fcn) { pFpppp_t fn = (pFpppp_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, (void*)R_RSI, (void*)R_RDX, (void*)R_RCX); } +void pFpONN(x64emu_t *emu, uintptr_t fcn) { pFpONN_t fn = (pFpONN_t)fcn; R_RAX=(uintptr_t)fn((void*)R_RDI, of_convert((int32_t)R_RSI), (void*)R_RDX, (void*)R_RCX); } void pFpbii(x64emu_t *emu, uintptr_t fcn) { pFpbii_t fn = (pFpbii_t)fcn; void *aligned_xcb = align_xcb_connection((void*)R_RSI); R_RAX=(uintptr_t)fn((void*)R_RDI, aligned_xcb, (int32_t)R_RDX, (int32_t)R_RCX); unalign_xcb_connection(aligned_xcb, (void*)R_RSI); } void pFSppi(x64emu_t *emu, uintptr_t fcn) { pFSppi_t fn = (pFSppi_t)fcn; R_RAX=(uintptr_t)fn(io_convert((void*)R_RDI), (void*)R_RSI, (void*)R_RDX, (int32_t)R_RCX); } void pFbCuW(x64emu_t *emu, uintptr_t fcn) { pFbCuW_t fn = (pFbCuW_t)fcn; void *aligned_xcb = align_xcb_connection((void*)R_RDI); R_RAX=(uintptr_t)fn(aligned_xcb, (uint8_t)R_RSI, (uint32_t)R_RDX, (uint16_t)R_RCX); unalign_xcb_connection(aligned_xcb, (void*)R_RDI); } |