path: root/src/drvemu.c

/* Copyright 2024 Lucas Fryzek <lucas.fryzek@fryzekconcepts.com>
 *
 * This file is part of DRVEMU.
 *
 * DRVEMU is free software: you can redistribute it and/or modify it under the
 * terms of the GNU General Public License as published by the Free Software
 * Foundation, either version 3 of the License, or (at your option) any later
 * version.
 *
 * DRVEMU is distributed in the hope that it will be useful, but WITHOUT ANY
 * WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
 * FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
 * details.
 *
 * You should have received a copy of the GNU General Public License along
 * with DRVEMU. If not, see <https://www.gnu.org/licenses/>.
 */
#include <stdio.h>
#include <stdlib.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdarg.h>
#include <string.h>
#include <assert.h>
#include <dlfcn.h>

#include <dirent.h>

#include <sys/mman.h>
#include <sys/syscall.h>

#include <asm-generic/ioctl.h>

#include "xf86drm.h"

#define DRM_PVR_RESERVED1 (DRM_COMMAND_BASE + 0)
#define DRM_PVR_RESERVED2 (DRM_COMMAND_BASE + 1)
#define DRM_PVR_RESERVED3 (DRM_COMMAND_BASE + 2)
#define DRM_PVR_RESERVED4 (DRM_COMMAND_BASE + 3)
#define DRM_PVR_RESERVED5 (DRM_COMMAND_BASE + 4)
#define DRM_PVR_RESERVED6 (DRM_COMMAND_BASE + 5)

/* PVR includes */
#define SUPPORT_MEMINFO_IDS
#define SUPPORT_DRI_DRM_EXT
#include <config_kernel.h>
#include <sgxfeaturedefs.h>
#include <pvr_bridge.h>
#include <sgx_bridge.h>
#include <pvr_drm_shared.h>
#include <sgxconfig.h>
#include <sgx_mkif_km.h>
#include <sgx_options.h>
#include <sgxapi_km.h>

#define DRM_IOCTL_PVR_SRVKM DRM_IOWR(PVR_DRM_SRVKM_CMD, PVRSRV_BRIDGE_PACKAGE)
#include "pvr_ioctl.h"

#define MAX_ALLOCATIONS 1024

#define LOG(msg...) fprintf(stderr, "[DRVEMU] " msg)

struct memory_allocation {
    bool allocated;
    uint32_t device_ptr;
    void *cpu_ptr;
    size_t size;
};

static struct memory_allocation allocations[MAX_ALLOCATIONS];

static int false_fd = 10241024;

static int alloc_memory(int heap, size_t size) {
    for (size_t i = 0; i < MAX_ALLOCATIONS; i++) {
        if (!allocations[i].allocated) {
            struct memory_allocation *mem = &allocations[i];
            mem->allocated = true;
            // TODO use heaps to get right device addr
            mem->device_ptr = 0;
            mem->cpu_ptr = malloc(size);
            mem->size = size;
            return i+1;
        }
    }

    assert(0);
    return -1;
}

#define PROLOG(func) \
    static typeof(func) *orig_##func = NULL; \
    if(!orig_##func) \
        orig_##func = dlsym(RTLD_NEXT, #func);


int open64(const char *pathname, int flags, ...) {
    LOG("Called open64 on %s (%d)\n", pathname, flags);
    PROLOG(open64);

    if (strcmp(pathname, "/dev/dri/renderD128") == 0) {
        LOG("Spoofing FD!\n");
        return false_fd;
    }

    int fd = orig_open64(pathname, flags);
    return fd;
}

int close(int fd) {
    LOG("Close called on %d\n", fd);
    PROLOG(close);

    if (fd != false_fd)
        return orig_close(fd);

    return 0;
}

int fcntl(int fd, int op, int arg) {
    LOG("Called fcntl on %d\n", fd);
    PROLOG(fcntl);

    if (fd == false_fd)
        return 0;

    return orig_fcntl(fd, op, arg);
}

PVRSRV_HEAP_INFO pvr_heaps[] = {
    {
        .ui32HeapID = HEAP_ID( PVRSRV_DEVICE_TYPE_SGX, SGX_GENERAL_HEAP_ID),
        .hDevMemHeap = (void*)1,
        .sDevVAddrBase = {SGX_GENERAL_HEAP_BASE},
        .ui32HeapByteSize = SGX_GENERAL_HEAP_SIZE,
        .ui32Attribs = PVRSRV_HAP_WRITECOMBINE,
    },
    {
        .ui32HeapID = HEAP_ID( PVRSRV_DEVICE_TYPE_SGX, SGX_TADATA_HEAP_ID),
        .hDevMemHeap = (void*)2,
        .sDevVAddrBase = {SGX_TADATA_HEAP_BASE},
        .ui32HeapByteSize = SGX_TADATA_HEAP_SIZE,
        .ui32Attribs = PVRSRV_HAP_WRITECOMBINE | PVRSRV_MEM_RAM_BACKED_ALLOCATION | PVRSRV_HAP_MULTI_PROCESS,
    },
    {
        .ui32HeapID = HEAP_ID( PVRSRV_DEVICE_TYPE_SGX, SGX_KERNEL_CODE_HEAP_ID),
        .hDevMemHeap = (void*)3,
        .sDevVAddrBase = {SGX_KERNEL_CODE_HEAP_BASE},
        .ui32HeapByteSize = SGX_KERNEL_CODE_HEAP_SIZE,
        .ui32Attribs = PVRSRV_HAP_WRITECOMBINE | PVRSRV_MEM_RAM_BACKED_ALLOCATION | PVRSRV_HAP_MULTI_PROCESS,
    },
    {
        .ui32HeapID = HEAP_ID( PVRSRV_DEVICE_TYPE_SGX, SGX_KERNEL_DATA_HEAP_ID),
        .hDevMemHeap = (void*)4,
        .sDevVAddrBase = {SGX_KERNEL_DATA_HEAP_BASE},
        .ui32HeapByteSize = SGX_KERNEL_DATA_HEAP_SIZE,
        .ui32Attribs = PVRSRV_HAP_WRITECOMBINE | PVRSRV_MEM_RAM_BACKED_ALLOCATION | PVRSRV_HAP_MULTI_PROCESS,
    },
    {
        .ui32HeapID = HEAP_ID( PVRSRV_DEVICE_TYPE_SGX, SGX_PIXELSHADER_HEAP_ID),
        .hDevMemHeap = (void*)5,
        .sDevVAddrBase = {SGX_PIXELSHADER_HEAP_BASE},
        .ui32HeapByteSize = SGX_PIXELSHADER_HEAP_SIZE,
        .ui32Attribs = PVRSRV_HAP_WRITECOMBINE | PVRSRV_MEM_RAM_BACKED_ALLOCATION | PVRSRV_HAP_SINGLE_PROCESS,
    },
    {
        .ui32HeapID = HEAP_ID( PVRSRV_DEVICE_TYPE_SGX, SGX_VERTEXSHADER_HEAP_ID),
        .hDevMemHeap = (void*)6,
        .sDevVAddrBase = {SGX_VERTEXSHADER_HEAP_BASE},
        .ui32HeapByteSize = SGX_VERTEXSHADER_HEAP_SIZE,
        .ui32Attribs = PVRSRV_HAP_WRITECOMBINE | PVRSRV_MEM_RAM_BACKED_ALLOCATION | PVRSRV_HAP_SINGLE_PROCESS,
    },
    {
        .ui32HeapID = HEAP_ID( PVRSRV_DEVICE_TYPE_SGX, SGX_PDSPIXEL_CODEDATA_HEAP_ID),
        .hDevMemHeap = (void*)7,
        .sDevVAddrBase = {SGX_PDSPIXEL_CODEDATA_HEAP_BASE},
        .ui32HeapByteSize = SGX_PDSPIXEL_CODEDATA_HEAP_SIZE,
        .ui32Attribs = PVRSRV_HAP_WRITECOMBINE | PVRSRV_MEM_RAM_BACKED_ALLOCATION | PVRSRV_HAP_SINGLE_PROCESS,
    },
    {
        .ui32HeapID = HEAP_ID( PVRSRV_DEVICE_TYPE_SGX, SGX_PDSVERTEX_CODEDATA_HEAP_ID),
        .hDevMemHeap = (void*)8,
        .sDevVAddrBase = {SGX_PDSVERTEX_CODEDATA_HEAP_BASE},
        .ui32HeapByteSize = SGX_PDSVERTEX_CODEDATA_HEAP_SIZE,
        .ui32Attribs = PVRSRV_HAP_WRITECOMBINE | PVRSRV_MEM_RAM_BACKED_ALLOCATION | PVRSRV_HAP_SINGLE_PROCESS,
    },
    {
        .ui32HeapID = HEAP_ID( PVRSRV_DEVICE_TYPE_SGX, SGX_SYNCINFO_HEAP_ID),
        .hDevMemHeap = (void*)9,
        .sDevVAddrBase = {SGX_SYNCINFO_HEAP_BASE},
        .ui32HeapByteSize = SGX_SYNCINFO_HEAP_SIZE,
        .ui32Attribs = PVRSRV_HAP_WRITECOMBINE | PVRSRV_MEM_RAM_BACKED_ALLOCATION | PVRSRV_HAP_MULTI_PROCESS,
    },
    {
        .ui32HeapID = HEAP_ID( PVRSRV_DEVICE_TYPE_SGX, SGX_SHARED_3DPARAMETERS_HEAP_ID),
        .hDevMemHeap = (void*)10,
        .sDevVAddrBase = {SGX_SHARED_3DPARAMETERS_HEAP_BASE},
        .ui32HeapByteSize = SGX_SHARED_3DPARAMETERS_HEAP_SIZE,
        .ui32Attribs = PVRSRV_HAP_WRITECOMBINE | PVRSRV_MEM_RAM_BACKED_ALLOCATION | PVRSRV_HAP_MULTI_PROCESS,
    },
    {
        .ui32HeapID = HEAP_ID( PVRSRV_DEVICE_TYPE_SGX, SGX_PERCONTEXT_3DPARAMETERS_HEAP_ID),
        .hDevMemHeap = (void*)11,
        .sDevVAddrBase = {SGX_PERCONTEXT_3DPARAMETERS_HEAP_BASE},
        .ui32HeapByteSize = SGX_PERCONTEXT_3DPARAMETERS_HEAP_SIZE,
        .ui32Attribs = PVRSRV_HAP_WRITECOMBINE | PVRSRV_MEM_RAM_BACKED_ALLOCATION | PVRSRV_HAP_SINGLE_PROCESS,
    },
};

#define DEV_NAME "pvr"
#define DEV_DATE "20110701"
#define DEV_DESC "Imagination Technologies PVR DRM"

void get_misc_info(SGX_MISC_INFO *info) {
    switch(info->eRequest) {
        case SGX_MISC_INFO_REQUEST_DRIVER_SGXREV:
            info->uData.sSGXFeatures.ui32BuildOptions = SGX_BUILD_OPTIONS;
            info->uData.sSGXFeatures.ui32DDKBuild = 3759903;
            info->uData.sSGXFeatures.ui32DDKVersion = (1 << 16) | (14 << 8);
            break;
        case SGX_MISC_INFO_REQUEST_SGXREV:
            // TODO need to get this from real hardware
            info->uData.sSGXFeatures.ui32BuildOptions = SGX_BUILD_OPTIONS;
            info->uData.sSGXFeatures.ui32DDKBuild = 3759903;
            info->uData.sSGXFeatures.ui32DDKVersion = (1 << 16) | (14 << 8);
            break;
        case SGX_MISC_INFO_REQUEST_CLOCKSPEED_SLCSIZE:
            info->uData.sQueryClockSpeedSLCSize.ui32SGXClockSpeed = SYS_SGX_CLOCK_SPEED;
            break;
        default:
            LOG("Unimplemented misc req %d\n", info->eRequest);
            assert(false);
            break;
    }
}

static bool pvrsrv_ioctl(int fd, PVRSRV_BRIDGE_PACKAGE *bridge_package) {
    int ioctl_nr = _IOC_NR(bridge_package->ui32BridgeID);
    LOG(">>> pvr_ioctl(%s)(0x%x)\n", pvrsrv_ioctl_names[ioctl_nr], bridge_package->ui32BridgeID);
    switch(ioctl_nr) {
        case _IOC_NR(PVRSRV_BRIDGE_CONNECT_SERVICES): {
            PVRSRV_BRIDGE_OUT_CONNECT_SERVICES *data = bridge_package->pvParamOut;
            data->eError = PVRSRV_OK;
            data->hKernelServices = (void*)0x2;
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_ENUM_DEVICES): {
            PVRSRV_BRIDGE_OUT_ENUMDEVICE *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            out->ui32NumDevices = 1;
            out->asDeviceIdentifier[0].eDeviceType = PVRSRV_DEVICE_TYPE_SGX;
            out->asDeviceIdentifier[0].eDeviceClass = PVRSRV_DEVICE_CLASS_3D;
            out->asDeviceIdentifier[0].ui32DeviceIndex = 0;
            out->asDeviceIdentifier[0].pszPDumpDevName = NULL;
            out->asDeviceIdentifier[0].pszPDumpRegName = NULL;
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_ACQUIRE_DEVICEINFO): {
            PVRSRV_BRIDGE_OUT_ACQUIRE_DEVICEINFO *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            out->hDevCookie = (void*)0x1;
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_SGX_GETMISCINFO): {
            LOG("Get misc info!\n");
            PVRSRV_BRIDGE_IN_SGXGETMISCINFO *in = bridge_package->pvParamIn;
            PVRSRV_BRIDGE_RETURN *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            get_misc_info(in->psMiscInfo);
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_SGX_GETCLIENTINFO): {
            PVRSRV_BRIDGE_OUT_GETCLIENTINFO *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            out->sClientInfo.ui32ProcessID = getpid();;
            out->sClientInfo.pvProcess = NULL;
            PVRSRV_MISC_INFO *misc = &out->sClientInfo.sMiscInfo;
            misc->ui32StatePresent = 0;
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_ENUM_CLASS): {
            PVRSRV_BRIDGE_OUT_ENUMDEVICE *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            out->ui32NumDevices = 1;
            out->asDeviceIdentifier[0].eDeviceType = PVRSRV_DEVICE_TYPE_SGX;
            out->asDeviceIdentifier[0].eDeviceClass = PVRSRV_DEVICE_CLASS_3D;
            out->asDeviceIdentifier[0].ui32DeviceIndex = 0;
            out->asDeviceIdentifier[0].pszPDumpDevName = "";
            out->asDeviceIdentifier[0].pszPDumpRegName = "";
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_CREATE_DEVMEMCONTEXT): {
            PVRSRV_BRIDGE_OUT_CREATE_DEVMEMCONTEXT *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            out->hDevMemContext = (void*)0x2;
            out->ui32ClientHeapCount = sizeof(pvr_heaps)/sizeof(*pvr_heaps);
            memcpy(out->sHeapInfo, pvr_heaps, sizeof(pvr_heaps));
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_OPEN_DISPCLASS_DEVICE): {
            PVRSRV_BRIDGE_OUT_OPEN_DISPCLASS_DEVICE *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            out->hDeviceKM = (void*)0x1;
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_GET_DISPCLASS_INFO): {
            PVRSRV_BRIDGE_OUT_GET_DISPCLASS_INFO *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            out->sDisplayInfo.ui32MaxSwapChains = 3;
            out->sDisplayInfo.ui32MaxSwapChainBuffers = 3;
            out->sDisplayInfo.ui32MinSwapInterval = 0;
            out->sDisplayInfo.ui32MaxSwapInterval = 1;
            out->sDisplayInfo.ui32PhysicalWidthmm = 256;
            out->sDisplayInfo.ui32PhysicalHeightmm = 256;
            strcpy(out->sDisplayInfo.szDisplayName, "Display");
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_ENUM_DISPCLASS_FORMATS): {
            PVRSRV_BRIDGE_OUT_ENUM_DISPCLASS_FORMATS *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            out->ui32Count = 1;
            out->asFormat[0].pixelformat = PVRSRV_PIXEL_FORMAT_A8R8G8B8_UNORM;
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_ENUM_DISPCLASS_DIMS): {
            PVRSRV_BRIDGE_OUT_ENUM_DISPCLASS_DIMS *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            out->ui32Count = 1;
            out->asDim[0].ui32ByteStride = 256;
            out->asDim[0].ui32Width = 256;
            out->asDim[0].ui32Height = 256;
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_GET_DISPCLASS_SYSBUFFER): {
            PVRSRV_BRIDGE_OUT_GET_DISPCLASS_SYSBUFFER *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            out->hBuffer = (void*)alloc_memory(0, 256*256*4);
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_MAP_DEVICECLASS_MEMORY): {
            PVRSRV_BRIDGE_IN_MAP_DEVICECLASS_MEMORY *in = bridge_package->pvParamIn;
            PVRSRV_BRIDGE_OUT_MAP_DEVICECLASS_MEMORY *out = bridge_package->pvParamOut;
            LOG("Attempting map 0x%x\n", (uint32_t)in->hDeviceClassBuffer);
            out->eError = PVRSRV_OK;
            out->sClientMemInfo.hMappingInfo = (void*)alloc_memory(0, 256*256*4);
            struct memory_allocation *mem = &allocations[((size_t)out->sClientMemInfo.hMappingInfo) - 1];
            out->sClientMemInfo.pvLinAddr = mem->cpu_ptr;
            out->sClientMemInfo.pvLinAddrKM = mem->cpu_ptr;
            out->sClientMemInfo.uAllocSize = mem->size;
            out->sClientMemInfo.hKernelMemInfo = out->sClientMemInfo.hMappingInfo;
            out->sClientMemInfo.hResItem = out->sClientMemInfo.hMappingInfo;
            out->sClientMemInfo.psNext = NULL;

            out->sClientSyncInfo.hMappingInfo = (void*)alloc_memory(0, 1024);
            out->sClientSyncInfo.psSyncData = NULL;
            out->sClientSyncInfo.sWriteOpsCompleteDevVAddr.uiAddr = 0xDEADBEEF;
            out->sClientSyncInfo.sReadOpsCompleteDevVAddr.uiAddr = (uintptr_t)out->sClientSyncInfo.hMappingInfo;
            out->sClientSyncInfo.sReadOps2CompleteDevVAddr.uiAddr = 0xDEADBEF1;
            out->sClientSyncInfo.hKernelSyncInfo = out->sClientSyncInfo.hMappingInfo;

            out->psKernelMemInfo = NULL;
            out->hMappingInfo = out->sClientMemInfo.hMappingInfo;
            LOG("Allocated 0x%x\n", (uint32_t)out->sClientMemInfo.hMappingInfo);
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_MHANDLE_TO_MMAP_DATA): {
            PVRSRV_BRIDGE_IN_MHANDLE_TO_MMAP_DATA *in = bridge_package->pvParamIn;
            PVRSRV_BRIDGE_OUT_MHANDLE_TO_MMAP_DATA *out = bridge_package->pvParamOut;
            size_t handle = (size_t)in->hMHandle;
            LOG("Attempting mhandle map 0x%x\n", handle);
            if (handle - 1 < MAX_ALLOCATIONS) {
                struct memory_allocation *mem = &allocations[handle - 1];
                out->eError = PVRSRV_OK;
                out->uiMMapOffset = (uintptr_t)mem->cpu_ptr;
                out->uiByteOffset = 0;
                out->uiRealByteSize = mem->size;
                out->uiUserVAddr = (uintptr_t)mem->cpu_ptr;
            } else {
                out->eError = PVRSRV_ERROR_INVALID_PARAMS;
            }
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_SYNC_OPS_TAKE_TOKEN): {
            PVRSRV_BRIDGE_OUT_SYNC_OPS_TAKE_TOKEN *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            // TODO figure out what this is
            out->ui32ReadOpsPending = 0;
            out->ui32WriteOpsPending = 0;
            out->ui32ReadOps2Pending = 0;
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_SYNC_OPS_FLUSH_TO_TOKEN): {
            PVRSRV_BRIDGE_RETURN *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_RELEASE_MMAP_DATA): {
            PVRSRV_BRIDGE_OUT_RELEASE_MMAP_DATA *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            // TODO figure out what this is
            out->bMUnmap = false;
            break;
        }
        case _IOC_NR(PVRSRV_BRIDGE_DISCONNECT_SERVICES):
        case _IOC_NR(PVRSRV_BRIDGE_SGX_RELEASECLIENTINFO):
        case _IOC_NR(PVRSRV_BRIDGE_CLOSE_DISPCLASS_DEVICE):
        case _IOC_NR(PVRSRV_BRIDGE_UNMAP_DEVICECLASS_MEMORY):
        case _IOC_NR(PVRSRV_BRIDGE_DESTROY_DEVMEMCONTEXT): {
            PVRSRV_BRIDGE_RETURN *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            break;
        }
#if 0
        case _IOC_NR(PVRSRV_BRIDGE_SGX_DEVINITPART2): {
            PVRSRV_BRIDGE_OUT_SGXDEVINITPART2 *out = bridge_package->pvParamOut;
            out->eError = PVRSRV_OK;
            out->ui32KMBuildOptions = SGX_BUILD_OPTIONS;
            printf("Input size is 0x%x\n", bridge_package->ui32InBufferSize);
            printf("Build options 0x%x\n", SGX_BUILD_OPTIONS);
            //out->ui32KMBuildOptions = 0x36a118;
            break;
        }
#endif
        default:
            LOG("Unimplemented pvrsrv ioctl %d, may be %s\n", ioctl_nr, pvrsrv_ioctl_names[ioctl_nr]);
            assert(false);
            break;
    }
    return false;
}

static bool spoof_ioctl(int fd, int request, void *ptr) {
    int ioctl_nr = _IOC_NR(request);
    switch(ioctl_nr) {
        case _IOC_NR(DRM_IOCTL_VERSION): {
            LOG("Spoofing device info\n");
            drmVersionPtr version = (drmVersionPtr)ptr;
            version->version_major = 1;
            version->version_minor = 13;
            version->version_patchlevel = 3341330;
            version->name_len = sizeof(DEV_NAME);
            version->date_len = sizeof(DEV_DATE);
            version->desc_len = sizeof(DEV_DESC);

            if (version->name)
                strcpy(version->name, DEV_NAME);
            if (version->date)
                strcpy(version->date, DEV_DATE);
            if (version->desc)
                strcpy(version->desc, DEV_DESC);

            break;
        }

#if 0
        case _IOC_NR(DRM_IOCTL_GET_MAGIC):
            printf(">>> ioctl(DRM_IOCTL_GET_MAGIC)\n");
            break;
        case _IOC_NR(DRM_IOCTL_GET_UNIQUE):
            printf(">>> ioctl(DRM_IOCTL_GET_UNIQUE)\n");
            break;
        case _IOC_NR(DRM_IOCTL_SET_VERSION):
            printf(">>> ioctl(DRM_IOCTL_SET_VERSION)\n");
            {
                struct drm_set_version *data = ptr;
                printf("\t%d %d %d %d\n", data->drm_di_major,
                                        data->drm_di_minor,
                                        data->drm_dd_major,
                                        data->drm_dd_minor);
            }
            break;
#endif
        case _IOC_NR(DRM_IOCTL_DROP_MASTER):
            LOG(">>> ioctl(DRM_IOCTL_DROP_MASTER)\n");
            return 0;
        case PVR_DRM_SRVKM_CMD:
            //fwrite(ptr, 1, sizeof(PVRSRV_BRIDGE_PACKAGE), log_file);
            //PPRINT(stdout, ptr, PVRSRV_BRIDGE_PACKAGE);
            return pvrsrv_ioctl(fd, ptr);
            break;
        case PVR_DRM_IS_MASTER_CMD:
            LOG(">>> ioctl(PVR_DRM_IS_MASTER_CMD) 0x%x\n", PVR_DRM_SRVKM_CMD);
            /* From KMD source code this seems to always return 0 */
            break;
        default:
            LOG("Unimplemented ioctl 0x%x\n", ioctl_nr);
            assert(false);
            break;
    }
    return 0;
}

int ioctl(int fd, int request, ...) {
    PROLOG(ioctl);
    int ioc_size = _IOC_SIZE(request);
    bool pvr = fd == false_fd;

    //printf("Size is %d\n", ioc_size);
    void *ptr = NULL;
    if(ioc_size) {
        va_list args;
        va_start(args, request);
        ptr = va_arg(args, void *);
        va_end(args);
    }

    LOG("Got ioctl %d!\n", fd);

    if (pvr)
        return spoof_ioctl(fd, request, ptr);
    else
        return orig_ioctl(fd, request, ptr);
}

int open(const char *pathname, int flags, mode_t mode) {
    LOG("Called open on %s (%d)\n", pathname, flags);
    PROLOG(open);
    return orig_open(pathname, flags, mode);
}

int openat(int dirfd, const char *pathname, int flags, ...) {
    LOG("Called openat on %s (%d) (%d)\n", pathname, dirfd, flags);
    PROLOG(openat);

    return orig_openat(dirfd, pathname, flags);
}

int openat64(int fd, const char * path, int oflag, ...) {
    LOG("Called openat64 %s\n", path);
    PROLOG(openat64);
    return orig_openat64(fd, path, oflag);
}

DIR *opendir(const char *dirname) {
    LOG("Opening dir %s\n", dirname);
    PROLOG(opendir);
    return orig_opendir(dirname);
}

struct dirent *readdir(DIR *dirp) {
    PROLOG(readdir);
    struct dirent *out = orig_readdir(dirp);
    if (out) {
        //printf("Reading %d %d %s\n", (int)out->d_type, (int)out->d_reclen, (char*)out->d_name);
    }
    return out;
}