Add DK_PCHAR support to /dev/iosuhax

2024-11-22 07:59:16 +01:00 · 2023-02-11 02:22:14 +01:00 · 2023-02-11 02:22:14 +01:00 · 68c60ac2d7
commit 68c60ac2d7
parent 939b1837e4
16 changed files with 1082 additions and 121 deletions
--- a/source/ios_kernel/source/instant_patches.c
+++ b/source/ios_kernel/source/instant_patches.c
@ -108,7 +108,7 @@ void instant_patches_setup(void) {
    // Place the environment path at the end of our .text section.
    for (int i = 0; i < 0x100; i += 4) {
-        *(volatile u32 *) (0x05119F00 - 0x05100000 + 0x13D80000 + i) = *(volatile u32 *) (0x0017FEF0 + i);
+        *(volatile u32 *) (0x0511FF00 - 0x05100000 + 0x13D80000 + i) = *(volatile u32 *) (0x0017FEF0 + i);
    }
    // force check USB storage on load
@ -134,7 +134,7 @@ void instant_patches_setup(void) {
    map_info.paddr  = 0x05116000 - 0x05100000 + 0x13D80000;
    map_info.vaddr  = 0x05116000;
-    map_info.size   = 0x4000;
+    map_info.size   = 0xA000;
    map_info.domain = 1; // MCP
    map_info.type   = 3; // 0 = undefined, 1 = kernel only, 2 = read only, 3 = read write
    map_info.cached = 0xFFFFFFFF;
--- a/source/ios_kernel/source/ios_mcp_patches.c
+++ b/source/ios_kernel/source/ios_mcp_patches.c
@ -22,7 +22,6 @@
 * distribution.
 ***************************************************************************/
 #include "ios_mcp_patches.h"
 #include "../../ios_mcp/ios_mcp.bin.h"
 #include "../../ios_mcp/ios_mcp_syms.h"
 #include "elf_patcher.h"
 #include "types.h"
@ -41,7 +40,7 @@ void mcp_run_patches(u32 ios_elf_start) {
    section_write_bss(ios_elf_start, _bss_start, _bss_end - _bss_start);
    // We can't use "_text_end" here because we need to copy the full 0x4000 to preserve the envrionmen path which
    // is at the end of the .text section.
-    section_write(ios_elf_start, _text_start, (void *) mcp_get_phys_code_base(), 0x4000);
+    section_write(ios_elf_start, _text_start, (void *) mcp_get_phys_code_base(), 0xA000);
    u32 patch_count = (u32) (((u8 *) mcp_patches_table_end) - ((u8 *) mcp_patches_table)) / sizeof(patch_table_t);
    patch_table_entries(ios_elf_start, mcp_patches_table, patch_count);
--- a/source/ios_mcp/imports.ld
+++ b/source/ios_mcp/imports.ld
@ -0,0 +1,66 @@
 PROVIDE(printf = 0x0503dcc0);
 /* PROVIDE(printf = 0x05055438); */
 PROVIDE(memcmp = 0x05054d6c);
 PROVIDE(memcpy = 0x05054e54);
 PROVIDE(memset = 0x05054ef0);
 PROVIDE(vsnprintf = 0x05055c40);
 /*PROVIDE(snprintf = 0x05055c8c);*/
 PROVIDE(strncpy = 0x05055db4);
 PROVIDE(strnlen = 0x05055e94);
 PROVIDE(strncmp = 0x05055e10);
 PROVIDE(usleep = 0x050564e4);
 PROVIDE(bspWrite = 0x0503d460);
 PROVIDE(bspRead = 0x0503d550);
 PROVIDE(UCWriteSysConfig = 0x05044a8c);
 PROVIDE(UCReadSysConfig = 0x05044d5c);
 PROVIDE(UCClose = 0x05045024);
 PROVIDE(UCOpen = 0x05045028);
 PROVIDE(IOS_CreateThread = 0x050567ec);
 PROVIDE(IOS_JoinThread = 0x050567f4);
 PROVIDE(IOS_CancelThread = 0x050567fc);
 PROVIDE(IOS_StartThread = 0x05056824);
 PROVIDE(IOS_GetThreadPriority = 0x0505683c);
 PROVIDE(IOS_CreateMessageQueue = 0x0505684c);
 PROVIDE(IOS_DestroyMessageQueue = 0x05056854);
 PROVIDE(IOS_ReceiveMessage = 0x0505686c);
 PROVIDE(IOS_CreateTimer = 0x05056884);
 PROVIDE(IOS_RestartTimer = 0x0505688c);
 PROVIDE(IOS_StopTimer = 0x05056894);
 PROVIDE(IOS_DestroyTimer = 0x0505689c);
 PROVIDE(IOS_CheckDebugMode = 0x050568ec);
 PROVIDE(IOS_ReadOTP = 0x050568fc);
 PROVIDE(IOS_HeapAlloc = 0x05056924);
 PROVIDE(IOS_HeapAllocAligned = 0x0505692c);
 PROVIDE(IOS_HeapFree = 0x05056934);
 PROVIDE(IOS_Open = 0x05056984);
 PROVIDE(IOS_Close = 0x0505698c);
 PROVIDE(IOS_Ioctl = 0x050569ac);
 PROVIDE(IOS_Ioctlv = 0x050569b4);
 PROVIDE(IOS_IoctlvAsync = 0x050569ec);
 PROVIDE(IOS_InvalidateDCache = 0x05056a74);
 PROVIDE(IOS_FlushDCache = 0x05056a7c);
 PROVIDE(IOS_CreateSemaphore = 0x05056aa4);
 PROVIDE(IOS_WaitSemaphore = 0x05056aac);
 PROVIDE(IOS_SignalSemaphore = 0x05056ab4);
 PROVIDE(IOS_DestroySempahore = 0x05056abc);
 PROVIDE(IOS_VirtToPhys = 0x05056a9c);
 PROVIDE(IOS_CheckIOPAddressRange = 0x05056ad4);
 PROVIDE(IOS_Shutdown = 0x05056b7c);
 PROVIDE(IOS_Syscall0x81 = 0x05056bf4);
 PROVIDE(ppcHeartBeatThreadId = 0x05070458);
 PROVIDE(currentColdbootOS = 0x050b8174);
 PROVIDE(currentColdbootTitle = 0x050b817c);
--- a/source/ios_mcp/link.ld
+++ b/source/ios_mcp/link.ld
@ -1,5 +1,7 @@
 OUTPUT_ARCH(arm)
 INCLUDE "imports.ld"
 PROVIDE(snprintf = 0x05059010);
 SECTIONS
@ -22,6 +24,6 @@ SECTIONS
 	}
 }
-ASSERT((SIZEOF(.text)) < 0x3F00, "text section is too big");
+ASSERT((SIZEOF(.text)) < 0x9F00, "text section is too big");
 ASSERT((SIZEOF(.bss)) < 0x3000, "bss section is too big");
--- a/source/ios_mcp/source/dk.c
+++ b/source/ios_mcp/source/dk.c
@ -0,0 +1,370 @@
 #include "dk.h"
 #include "imports.h"
 #include "smd.h"
 #include "socket.h"
 #include "svc.h"
 #include <stdio.h>
 #include <string.h>
 #include <unistd.h>
 //#define DEBUG_LOGGING
 #define DK_PORT            3000
 #define DK_THREAD_INTERVAL 600
 #define DK_SMD_IDX_READ    0
 #define DK_SMD_IDX_WRITE   1
 static u8 threadStack[0x500] __attribute__((aligned(0x20)));
 static int threadRunning = 0;
 static int threadId      = 0;
 static int servfd        = 0;
 static int setupServer(int port) {
    if (socketInit() < 0) {
        printf("DK: failed to init socketlib\n");
        smdIopClose(DK_SMD_IDX_READ);
        smdIopClose(DK_SMD_IDX_WRITE);
        return -1;
    }
    printf("DK: socket init\n");
    int sockfd = socket(AF_INET, SOCK_STREAM, 0);
    if (sockfd < 0) {
        printf("DK: failed to create socket\n");
        smdIopClose(DK_SMD_IDX_READ);
        smdIopClose(DK_SMD_IDX_WRITE);
        return -1;
    }
    printf("DK: socket created\n");
    int reuse = 1;
    if (setsockopt(sockfd, SOL_SOCKET, SO_REUSEADDR, &reuse, sizeof(reuse)) < 0) {
        printf("DK warning: failed to set SO_REUSEADDR\n");
    }
    struct sockaddr_in servaddr;
    memset(&servaddr, 0, sizeof(servaddr));
    servaddr.sin_family      = AF_INET;
    servaddr.sin_addr.s_addr = INADDR_ANY;
    servaddr.sin_port        = port;
    if (bind(sockfd, (struct sockaddr *) &servaddr, sizeof(servaddr)) != 0) {
        printf("DK: failed to bind socket\n");
        goto quit;
    }
    printf("DK: socket bound\n");
    return sockfd;
 quit:;
    closesocket(sockfd);
    return -1;
 }
 static int handleServer(int connfd) {
    int nonblock = 1;
    if (setsockopt(connfd, SOL_SOCKET, SO_NONBLOCK, &nonblock, sizeof(nonblock)) < 0) {
        printf("DK: failed to make connection non-blocking\n");
        return 0;
    }
    int sack = 1;
    if (setsockopt(connfd, SOL_SOCKET, SO_TCPSACK, &sack, sizeof(sack)) < 0) {
        printf("DK: failed to set SO_TCPSACK\n");
        return 0;
    }
    int nodelay = 1;
    if (setsockopt(connfd, IPPROTO_TCP, TCP_NODELAY, &nodelay, sizeof(nodelay)) < 0) {
        printf("DK: failed to set TCP_NODELAY\n");
        return 0;
    }
    // create a message queue and timer
    uint32_t messageBuf;
    int queueId = IOS_CreateMessageQueue(&messageBuf, 1);
    if (queueId < 0) {
        printf("DK: failed to create message queue\n");
        return -1;
    }
    int timerId = IOS_CreateTimer(0, 0, queueId, 0xdeafcafe);
    if (timerId < 0) {
        printf("DK: failed to create timer\n");
        IOS_DestroyMessageQueue(queueId);
        return -1;
    }
    while (threadRunning) {
        // restart timer
        if (IOS_RestartTimer(timerId, DK_THREAD_INTERVAL, 0)) {
            printf("DK: failed to restart timer\n");
            break;
        }
        // wait until the timer sends a message
        uint32_t message;
        if (IOS_ReceiveMessage(queueId, &message, 0) < 0) {
            printf("DK: failed to receive message\n");
            break;
        }
        SmdInterfaceState readState;
        if (smdIopGetInterfaceState(DK_SMD_IDX_READ, NULL, &readState) != 0) {
            printf("DK: Failed to get interface state, closing...\n");
            break;
        }
        SmdInterfaceState writeState;
        if (smdIopGetInterfaceState(DK_SMD_IDX_WRITE, NULL, &writeState) != 0) {
            printf("DK: Failed to get interface state, closing...\n");
            break;
        }
        if (readState != SMD_INTERFACE_STATE_OPENED || writeState != SMD_INTERFACE_STATE_OPENED) {
            printf("DK: Closing interfaces\n");
            break;
        }
        // process up to 100 writes before waiting
        for (int i = 0; i < 100; ++i) {
            SmdReceiveData receiveData;
            if (smdIopReceive(DK_SMD_IDX_WRITE, &receiveData) != 0) {
                break;
            }
 #ifdef DEBUG_LOGGING
            printf("DK: received write vector\n");
 #endif
            if (receiveData.type != SMD_ELEMENT_TYPE_VECTOR) {
                printf("DK Warn: Received smd type %ld on write queue\n", receiveData.type);
                continue;
            }
            if (receiveData.vector->id != DK_PCHAR_COMMAND_WRITE) {
                printf("DK Warn: Received command %lx on write queue\n", receiveData.vector->id);
                smdIopSendVector(DK_SMD_IDX_WRITE, receiveData.vector);
                continue;
            }
            DKPCHARResult *result     = receiveData.vector->vecs[0].ptr;
            DKPCHARResponse *response = receiveData.vector->vecs[2].ptr;
            response->buf = receiveData.vector->vecs[1].ptr;
            // send data
            int32_t error    = 0;
            uint32_t to_send = receiveData.vector->vecs[1].size;
 #ifdef DEBUG_LOGGING
            printf("DK: sending %lu bytes\n", to_send);
 #endif
            uint32_t offset = 0;
            while (to_send > 0) {
                int res = send(connfd, receiveData.vector->vecs[1].ptr + offset, to_send, 0);
                if (res < 0) {
                    error = res;
                    break;
                }
                to_send -= res;
                offset += res;
            }
            result->error = error;
            smdIopSendVector(DK_SMD_IDX_WRITE, receiveData.vector);
        }
        // read pending data, if we have any
        for (int i = 0; i < 100; ++i) {
            char buf[500];
            int32_t res = recv(connfd, buf, sizeof(buf), 0);
            if (res == -0xafffa /*EWOULDBLOCK*/) {
                // no more data to receive
                break;
            }
            if (res < 0) {
                printf("DK: recv returned %lx\n", res);
                break;
            }
            if (res == 0) {
                printf("DK: client disconnected\n");
                IOS_DestroyTimer(timerId);
                IOS_DestroyMessageQueue(queueId);
                return 0;
            }
 #ifdef DEBUG_LOGGING
            printf("DK: recv: %ld\n", res);
 #endif
            SmdReceiveData receiveData;
            if (smdIopReceive(DK_SMD_IDX_READ, &receiveData) != 0) {
                printf("DK Warn: no vector in read queue, dropping packet\n");
                break;
            }
 #ifdef DEBUG_LOGGING
            printf("DK: received read vector\n");
 #endif
            if (receiveData.type != SMD_ELEMENT_TYPE_VECTOR) {
                printf("DK Warn: Received smd type %ld on read queue\n", receiveData.type);
                continue;
            }
            if (receiveData.vector->id != DK_PCHAR_COMMAND_READ) {
                printf("DK Warn: Received command %lx on read queue\n", receiveData.vector->id);
                smdIopSendVector(DK_SMD_IDX_READ, receiveData.vector);
                continue;
            }
            DKPCHARResult *result     = receiveData.vector->vecs[0].ptr;
            DKPCHARResponse *response = receiveData.vector->vecs[2].ptr;
            response->buf = receiveData.vector->vecs[1].ptr;
            if (receiveData.vector->vecs[1].size < (uint32_t) res) {
                printf("DK: Warning truncating received data\n");
                res = receiveData.vector->vecs[1].size;
            }
            if (res > 0) {
                memcpy(receiveData.vector->vecs[1].ptr, buf, res);
                result->error  = 0;
                result->param0 = res;
            } else {
                result->error = res;
            }
            smdIopSendVector(DK_SMD_IDX_READ, receiveData.vector);
        }
    }
    IOS_DestroyTimer(timerId);
    IOS_DestroyMessageQueue(queueId);
    return -1;
 }
 static int dkThread(void *arg) {
    printf("DK: thread started\n");
    threadRunning = 1;
    servfd = setupServer(DK_PORT);
    if (servfd < 0) {
        goto exit;
    }
    while (threadRunning) {
        if (listen(servfd, 1) != 0) {
            printf("DK: failed listening for connections\n");
            goto exit;
        }
        printf("DK: listening for connections on port %d\n", DK_PORT);
        struct sockaddr_in clientaddr;
        socklen_t len = sizeof(clientaddr);
        int connfd    = accept(servfd, (struct sockaddr *) &clientaddr, &len);
        if (connfd < 0) {
            printf("DK: failed to accept connection\n");
            continue;
        }
        uint8_t *addr = (uint8_t *) &clientaddr.sin_addr.s_addr;
        printf("DK: Connected to %d.%d.%d.%d\n", addr[0], addr[1], addr[2], addr[3]);
        if (handleServer(connfd) < 0) {
            closesocket(connfd);
            break;
        }
        closesocket(connfd);
    }
 exit:;
    printf("DK: exited thread\n");
    if (servfd >= 0) {
        closesocket(servfd);
        servfd = -1;
    }
    // close smd
    smdIopClose(DK_SMD_IDX_READ);
    smdIopClose(DK_SMD_IDX_WRITE);
    threadRunning = 0;
    return 0;
 }
 static void dkPCHARDeactivateSmd() {
    // close server socket and tell thread to stop
    if (servfd >= 0) {
        closesocket(servfd);
        servfd = -1;
    }
    threadRunning = 0;
    // wait for thread to return
    IOS_JoinThread(threadId, NULL);
 }
 int dkPCHARActivateSmd(IOSVec *vecs) {
    int32_t ret                   = 0;
    DKPCHARResult *result         = (DKPCHARResult *) vecs[0].ptr;
    DKPCHARActivateParams *params = (DKPCHARActivateParams *) vecs[1].ptr;
    printf("PCHAR Activate (%lx) for %s: SMDs %s %s\n", params->command, params->path, params->smdReadName, params->smdWriteName);
    // Prevent starting another thread while the old one is still running
    if (threadRunning) {
        printf("DK: thread is already running, stopping...\n");
        dkPCHARDeactivateSmd();
    }
    ret = smdIopInit(DK_SMD_IDX_WRITE, (SmdControlTable *) vecs[2].ptr, params->smdWriteName, 0);
    if (ret != 0) {
        goto done;
    }
    ret = smdIopInit(DK_SMD_IDX_READ, (SmdControlTable *) vecs[3].ptr, params->smdReadName, 0);
    if (ret != 0) {
        goto done;
    }
    ret = smdIopOpen(DK_SMD_IDX_WRITE);
    if (ret != 0) {
        goto done;
    }
    ret = smdIopOpen(DK_SMD_IDX_READ);
    if (ret != 0) {
        goto done;
    }
    threadId = svcCreateThread(dkThread, 0, (u32 *) (threadStack + sizeof(threadStack)), sizeof(threadStack), 0x77, 0);
    if (threadId < 0) {
        ret = threadId;
        goto done;
    }
    if (svcStartThread(threadId) < 0) {
        printf("DK: failed to start thread\n");
        ret = -11;
    }
 done:;
    printf("PCHAR Activate %lx\n", ret);
    result->error = ret;
    return ret;
 }
--- a/source/ios_mcp/source/dk.h
+++ b/source/ios_mcp/source/dk.h
@ -0,0 +1,47 @@
 #pragma once
 #include "ipc_types.h"
 #include <assert.h>
 #include <stdint.h>
 #ifndef PACKED
 #define PACKED __attribute__((__packed__))
 #endif
 #ifndef CHECK_SIZE
 #define CHECK_SIZE(type, size) static_assert(sizeof(type) == size, #type " must be " #size " bytes")
 #endif
 enum DKPCHARCommand {
    DK_PCHAR_COMMAND_READ  = 0x40,
    DK_PCHAR_COMMAND_WRITE = 0x41,
 };
 typedef struct PACKED {
    uint32_t command;
    uint8_t __unk[0x8];
    char path[0x20];
    uint8_t __padding[0x4];
    char smdWriteName[0x10];
    char smdReadName[0x10];
 } DKPCHARActivateParams;
 CHECK_SIZE(DKPCHARActivateParams, 0x50);
 typedef struct PACKED {
    int32_t error;
    uint32_t param0;
    uint32_t param1;
 } DKPCHARResult;
 CHECK_SIZE(DKPCHARResult, 0xC);
 typedef struct PACKED {
    uint32_t command;
    void *message;
    uint32_t unk;
    void *buf;
    uint32_t size;
    uint8_t __padding[0x3C];
 } DKPCHARResponse;
 CHECK_SIZE(DKPCHARResponse, 0x50);
 int dkPCHARActivateSmd(IOSVec *vecs);
--- a/source/ios_mcp/source/imports.c
+++ b/source/ios_mcp/source/imports.c
@ -1,25 +1,5 @@
 #include "imports.h"
 void usleep(u32 time) {
    ((void (*const)(u32)) 0x050564E4)(time);
 }
 void *memset(void *dst, int val, size_t size) {
    char *_dst = dst;
    int i;
    for (i = 0; i < size; i++)
        _dst[i] = val;
    return dst;
 }
 void *(*const _memcpy)(void *dst, void *src, int size) = (void *) 0x05054E54;
 void *memcpy(void *dst, const void *src, size_t size) {
    return _memcpy(dst, (void *) src, size);
 }
 int strlen(const char *str) {
    unsigned int i = 0;
    while (str[i]) {
@ -28,19 +8,6 @@ int strlen(const char *str) {
    return i;
 }
 int strncmp(const char *s1, const char *s2, size_t n) {
    while (n && *s1 && (*s1 == *s2)) {
        ++s1;
        ++s2;
        --n;
    }
    if (n == 0) {
        return 0;
    } else {
        return (*(unsigned char *) s1 - *(unsigned char *) s2);
    }
 }
 // Function to implement strncat() function in C
 char *strncat(char *destination, const char *source, size_t num) {
    // make ptr point to the end of destination string
@ -56,18 +23,3 @@ char *strncat(char *destination, const char *source, size_t num) {
    // destination string is returned by standard strncat()
    return destination;
 }
 char *strncpy(char *dst, const char *src, size_t size) {
    int i;
    for (i = 0; i < size; i++) {
        dst[i] = src[i];
        if (src[i] == '\0')
            return dst;
    }
    return dst;
 }
 int vsnprintf(char *s, size_t n, const char *format, va_list arg) {
    return ((int (*const)(char *, size_t, const char *, va_list)) 0x05055C40)(s, n, format, arg);
 }
--- a/source/ios_mcp/source/imports.h
+++ b/source/ios_mcp/source/imports.h
@ -7,6 +7,32 @@
 #define MCP_SVC_BASE ((void *) 0x050567EC)
-void usleep(u32 time);
+typedef enum {
    MEM_PERM_R  = 1 << 0,
    MEM_PERM_W  = 1 << 1,
    MEM_PERM_RW = (MEM_PERM_R | MEM_PERM_W),
 } MemPermFlags;
 int IOS_JoinThread(int threadid, int32_t *returned_value);
 int IOS_CreateMessageQueue(uint32_t *ptr, uint32_t n_msgs);
 int IOS_DestroyMessageQueue(int queueid);
 int IOS_SendMessage(int queueid, uint32_t message, uint32_t flags);
 int IOS_ReceiveMessage(int queueid, uint32_t *message, uint32_t flags);
 int IOS_CreateTimer(uint32_t time_us, uint32_t repeat_time_us, int queueid, uint32_t message);
 int IOS_RestartTimer(int timerid, uint32_t time_us, uint32_t repeat_time_us);
 int IOS_DestroyTimer(int timerid);
 void IOS_InvalidateDCache(void *ptr, uint32_t len);
 void IOS_FlushDCache(void *ptr, uint32_t len);
 int32_t IOS_CheckIOPAddressRange(void *ptr, uint32_t size, MemPermFlags perm);
 uint32_t IOS_VirtToPhys(void *ptr);
 int IOS_CreateSemaphore(int32_t maxCount, int32_t initialCount);
 int IOS_WaitSemaphore(int id, uint32_t tryWait);
 int IOS_SignalSemaphore(int id);
 int IOS_DestroySemaphore(int id);
 #endif
--- a/source/ios_mcp/source/ipc.c
+++ b/source/ios_mcp/source/ipc.c
@ -22,6 +22,7 @@
 * distribution.
 ***************************************************************************/
 #include "../../common/kernel_commands.h"
 #include "dk.h"
 #include "fsa.h"
 #include "imports.h"
 #include "logger.h"
@ -31,48 +32,50 @@
 #include <stdlib.h>
 #include <string.h>
-#define IOS_ERROR_UNKNOWN_VALUE 0xFFFFFFD6
+#define IOS_ERROR_UNKNOWN_VALUE  0xFFFFFFD6
-#define IOS_ERROR_INVALID_ARG   0xFFFFFFE3
+#define IOS_ERROR_INVALID_ARG    0xFFFFFFE3
-#define IOS_ERROR_INVALID_SIZE  0xFFFFFFE9
+#define IOS_ERROR_INVALID_SIZE   0xFFFFFFE9
-#define IOS_ERROR_UNKNOWN       0xFFFFFFF7
+#define IOS_ERROR_UNKNOWN        0xFFFFFFF7
-#define IOS_ERROR_NOEXISTS      0xFFFFFFFA
+#define IOS_ERROR_NOEXISTS       0xFFFFFFFA
-#define IOCTL_MEM_WRITE         0x00
+#define IOCTL_MEM_WRITE          0x00
-#define IOCTL_MEM_READ          0x01
+#define IOCTL_MEM_READ           0x01
-#define IOCTL_SVC               0x02
+#define IOCTL_SVC                0x02
-#define IOCTL_KILL_SERVER       0x03
+#define IOCTL_KILL_SERVER        0x03
-#define IOCTL_MEMCPY            0x04
+#define IOCTL_MEMCPY             0x04
-#define IOCTL_REPEATED_WRITE    0x05
+#define IOCTL_REPEATED_WRITE     0x05
-#define IOCTL_KERN_READ32       0x06
+#define IOCTL_KERN_READ32        0x06
-#define IOCTL_KERN_WRITE32      0x07
+#define IOCTL_KERN_WRITE32       0x07
-#define IOCTL_READ_OTP          0x08
+#define IOCTL_READ_OTP           0x08
-#define IOCTL_FSA_OPEN          0x40
+#define IOCTL_FSA_OPEN           0x40
-#define IOCTL_FSA_CLOSE         0x41
+#define IOCTL_FSA_CLOSE          0x41
-#define IOCTL_FSA_MOUNT         0x42
+#define IOCTL_FSA_MOUNT          0x42
-#define IOCTL_FSA_UNMOUNT       0x43
+#define IOCTL_FSA_UNMOUNT        0x43
-#define IOCTL_FSA_GETDEVICEINFO 0x44
+#define IOCTL_FSA_GETDEVICEINFO  0x44
-#define IOCTL_FSA_OPENDIR       0x45
+#define IOCTL_FSA_OPENDIR        0x45
-#define IOCTL_FSA_READDIR       0x46
+#define IOCTL_FSA_READDIR        0x46
-#define IOCTL_FSA_CLOSEDIR      0x47
+#define IOCTL_FSA_CLOSEDIR       0x47
-#define IOCTL_FSA_MAKEDIR       0x48
+#define IOCTL_FSA_MAKEDIR        0x48
-#define IOCTL_FSA_OPENFILE      0x49
+#define IOCTL_FSA_OPENFILE       0x49
-#define IOCTL_FSA_READFILE      0x4A
+#define IOCTL_FSA_READFILE       0x4A
-#define IOCTL_FSA_WRITEFILE     0x4B
+#define IOCTL_FSA_WRITEFILE      0x4B
-#define IOCTL_FSA_STATFILE      0x4C
+#define IOCTL_FSA_STATFILE       0x4C
-#define IOCTL_FSA_CLOSEFILE     0x4D
+#define IOCTL_FSA_CLOSEFILE      0x4D
-#define IOCTL_FSA_SETFILEPOS    0x4E
+#define IOCTL_FSA_SETFILEPOS     0x4E
-#define IOCTL_FSA_GETSTAT       0x4F
+#define IOCTL_FSA_GETSTAT        0x4F
-#define IOCTL_FSA_REMOVE        0x50
+#define IOCTL_FSA_REMOVE         0x50
-#define IOCTL_FSA_REWINDDIR     0x51
+#define IOCTL_FSA_REWINDDIR      0x51
-#define IOCTL_FSA_CHDIR         0x52
+#define IOCTL_FSA_CHDIR          0x52
-#define IOCTL_FSA_RENAME        0x53
+#define IOCTL_FSA_RENAME         0x53
-#define IOCTL_FSA_RAW_OPEN      0x54
+#define IOCTL_FSA_RAW_OPEN       0x54
-#define IOCTL_FSA_RAW_READ      0x55
+#define IOCTL_FSA_RAW_READ       0x55
-#define IOCTL_FSA_RAW_WRITE     0x56
+#define IOCTL_FSA_RAW_WRITE      0x56
-#define IOCTL_FSA_RAW_CLOSE     0x57
+#define IOCTL_FSA_RAW_CLOSE      0x57
-#define IOCTL_FSA_CHANGEMODE    0x58
+#define IOCTL_FSA_CHANGEMODE     0x58
-#define IOCTL_FSA_FLUSHVOLUME   0x59
+#define IOCTL_FSA_FLUSHVOLUME    0x59
 #define IOCTLV_DK_PCHAR_ACTIVATE 0x30
 static int ipcNodeKilled;
 static u8 threadStack[0x1000] __attribute__((aligned(0x20)));
@ -384,6 +387,21 @@ static int ipc_ioctl(ipcmessage *message) {
    return res;
 }
 static int ipc_ioctlv(ipcmessage *message) {
    int res = 0;
    switch (message->ioctlv.command) {
        case IOCTLV_DK_PCHAR_ACTIVATE:
            res = dkPCHARActivateSmd(message->ioctlv.vecs);
            break;
        default:
            res = IOS_ERROR_INVALID_ARG;
            break;
    }
    return res;
 }
 static int ipc_thread(void *arg) {
    int res;
    ipcmessage *message;
@ -417,7 +435,7 @@ static int ipc_thread(void *arg) {
                }
                case IOS_IOCTLV: {
                    log_printf("IOS_IOCTLV\n");
-                    res = 0;
+                    res = ipc_ioctlv(message);
                    break;
                }
                default: {
--- a/source/ios_mcp/source/ipc_types.h
+++ b/source/ios_mcp/source/ipc_types.h
@ -19,6 +19,11 @@
 #define IOS_RESUME          0x0D
 #define IOS_SVCMSG          0x0E
 typedef struct {
    void *ptr;
    uint32_t len;
    uint32_t paddr;
 } IOSVec;
 /* IPC message */
 typedef struct ipcmessage {
@ -61,9 +66,9 @@ typedef struct ipcmessage {
        struct _ioctlv {
            u32 command;
-            u32 num_in;
+            uint32_t num_in;
-            u32 num_io;
+            uint32_t num_out;
-            struct _ioctlv *vector;
+            IOSVec *vecs;
        } ioctlv;
    };
--- a/source/ios_mcp/source/main.c
+++ b/source/ios_mcp/source/main.c
@ -1,5 +1,4 @@
 #include "ipc.h"
 #include "wupserver.h"
 static int threadsStarted = 0;
--- a/source/ios_mcp/source/mcp_loadfile.c
+++ b/source/ios_mcp/source/mcp_loadfile.c
@ -79,9 +79,9 @@ int _MCP_LoadFile_patch(ipcmessage *msg) {
    if (strncmp(request->name, "men.rpx", strlen("men.rpx")) == 0) {
        rpxpath[0] = '\0';
        if (skipPPCSetup) {
-            snprintf(rpxpath, sizeof(rpxpath) - 1, "%s/men.rpx", &((char *) 0x05119F00)[19]); // Copy in environment path
+            snprintf(rpxpath, sizeof(rpxpath) - 1, "%s/men.rpx", &((char *) 0x0511FF00)[19]); // Copy in environment path
        } else {
-            snprintf(rpxpath, sizeof(rpxpath) - 1, "%s/root.rpx", &((char *) 0x05119F00)[19]); // Copy in environment path
+            snprintf(rpxpath, sizeof(rpxpath) - 1, "%s/root.rpx", &((char *) 0x0511FF00)[19]); // Copy in environment path
        }
        // At startup we want to hook into the Wii U Menu by replacing the men.rpx with a file from the SD Card
@ -296,7 +296,7 @@ int _MCP_ioctl100_patch(ipcmessage *msg) {
            }
            case IPC_CUSTOM_COPY_ENVIRONMENT_PATH: {
                if (msg->ioctl.buffer_io && msg->ioctl.length_io >= 0x100) {
-                    strncpy((char *) msg->ioctl.buffer_io, (void *) 0x05119F00, 0xFF);
+                    strncpy((char *) msg->ioctl.buffer_io, (void *) 0x0511FF00, 0xFF);
                    return 0;
                } else {
                    return 29;
--- a/source/ios_mcp/source/smd.c
+++ b/source/ios_mcp/source/smd.c
@ -0,0 +1,320 @@
 #include "smd.h"
 #include <imports.h>
 #include <string.h>
 static SmdIopContext contexts[8];
 static void *smdPhysToVirt(SmdIopContext *ctx, uint32_t paddr) {
    return (void *) (paddr + ctx->memVirtOffset);
 }
 static uint32_t smdVirtToPhys(SmdIopContext *ctx, void *vaddr) {
    return (uint32_t) vaddr + ctx->memPhysOffset;
 }
 int32_t smdIopInit(int32_t index, SmdControlTable *table, const char *name, int lock) {
    if (index > 7) {
        return -0xc0003;
    }
    SmdIopContext *ctx = &contexts[index];
    // Verify table pointer
    if (IOS_CheckIOPAddressRange(table, sizeof(SmdControlTable), MEM_PERM_RW) != 0) {
        return -0xc0007;
    }
    ctx->controlTable = table;
    if (lock && !ctx->hasSemaphore) {
        ctx->semaphore = IOS_CreateSemaphore(1, 1);
        if (ctx->semaphore < 0) {
            return -0xc0008;
        }
        ctx->hasSemaphore = 1;
    }
    ctx->shouldLock = lock;
    IOS_InvalidateDCache(table, sizeof(SmdControlTable));
    if (strncmp(table->name, name, sizeof(table->name)) != 0) {
        return -0xc0007;
    }
    // Calculate virt and phys offsets
    uint32_t paddr     = IOS_VirtToPhys(table);
    ctx->memVirtOffset = (int32_t) table - paddr;
    ctx->memPhysOffset = paddr - (int32_t) table;
    ctx->iopElementBuf   = (SmdElement *) smdPhysToVirt(ctx, table->iopInterface.bufPaddr);
    ctx->iopElementCount = table->iopInterface.elementCount;
    ctx->ppcElementBuf   = (SmdElement *) smdPhysToVirt(ctx, table->ppcInterface.bufPaddr);
    ctx->ppcElementCount = table->ppcInterface.elementCount;
    // Verify element bufffers
    if (IOS_CheckIOPAddressRange(ctx->iopElementBuf, ctx->iopElementCount * sizeof(SmdElement), MEM_PERM_RW) != 0 ||
        IOS_CheckIOPAddressRange(ctx->ppcElementBuf, ctx->ppcElementCount * sizeof(SmdElement), MEM_PERM_RW) != 0) {
        return -0xc0007;
    }
    ctx->state = SMD_STATE_INITIALIZED;
    return 0;
 }
 int32_t smdIopOpen(int32_t index) {
    if (index > 7) {
        return -0xc0003;
    }
    SmdIopContext *ctx = &contexts[index];
    if (ctx->state < SMD_STATE_INITIALIZED) {
        return -0xc000d;
    }
    // Update interface state
    ctx->controlTable->iopInterface.state = SMD_INTERFACE_STATE_OPENED;
    IOS_FlushDCache(&ctx->controlTable->iopInterface.state, 4);
    ctx->state = SMD_STATE_OPENED;
    return 0;
 }
 int32_t smdIopClose(int32_t index) {
    if (index > 7) {
        return -0xc0003;
    }
    SmdIopContext *ctx = &contexts[index];
    if (ctx->state < SMD_STATE_INITIALIZED) {
        return -0xc000d;
    }
    // Update interface state
    ctx->controlTable->iopInterface.state = SMD_INTERFACE_STATE_CLOSED;
    IOS_FlushDCache(&ctx->controlTable->iopInterface.state, 4);
    ctx->state = SMD_STATE_CLOSED;
    return 0;
 }
 int32_t smdIopGetInterfaceState(int32_t index, SmdInterfaceState *iopState, SmdInterfaceState *ppcState) {
    if (index > 7) {
        return -0xc0003;
    }
    SmdIopContext *ctx = &contexts[index];
    if (ctx->state < SMD_STATE_INITIALIZED) {
        return -0xc000d;
    }
    // Read interface states
    if (ppcState) {
        IOS_InvalidateDCache(&ctx->controlTable->ppcInterface.state, 4);
        *ppcState = (SmdInterfaceState) ctx->controlTable->ppcInterface.state;
    }
    if (iopState) {
        IOS_InvalidateDCache(&ctx->controlTable->iopInterface.state, 4);
        *iopState = (SmdInterfaceState) ctx->controlTable->iopInterface.state;
    }
    return 0;
 }
 int32_t smdIopReceive(int32_t index, SmdReceiveData *data) {
    int32_t ret = 0;
    int32_t incoming;
    if (index > 7) {
        return -0xc0003;
    }
    SmdIopContext *ctx  = &contexts[index];
    SmdInterface *iface = &ctx->controlTable->iopInterface;
    memset(data, 0, sizeof(SmdReceiveData));
    if (ctx->shouldLock) {
        IOS_WaitSemaphore(ctx->semaphore, 0);
    }
    IOS_InvalidateDCache(iface, sizeof(SmdInterface));
    if (iface->readOffset > (int32_t) ctx->iopElementCount) {
        ret = -0xc0007;
        goto done;
    }
    // figure out how many incoming elements we can receive
    if (iface->readOffset < iface->writeOffset) {
        incoming = iface->writeOffset - iface->readOffset;
    } else if (iface->writeOffset < iface->readOffset) {
        incoming = iface->elementCount - iface->readOffset;
        if (iface->writeOffset > 0) {
            incoming += iface->writeOffset;
        }
    } else {
        ret = -0xc0005;
        goto done;
    }
    if (incoming <= 0) {
        ret = -0xc0005;
        goto done;
    }
    SmdElement *element = &ctx->iopElementBuf[iface->readOffset];
    IOS_InvalidateDCache(element, sizeof(SmdElement));
    data->size = element->size;
    data->type = element->type;
    // handle message types
    if (element->type == SMD_ELEMENT_TYPE_MESSAGE) {
        if (element->size > 0x80) {
            ret = -0xc0001;
            goto done;
        }
        memcpy(data->message, element->data, element->size);
    } else if (element->type == SMD_ELEMENT_TYPE_VECTOR_SPEC) {
        SmdVector *vec   = &element->spec;
        data->spec.count = vec->count;
        data->spec.id    = vec->id;
        if (data->spec.count > 4) {
            ret = -0xc0002;
            goto done;
        }
        // Translate and verify spec pointers
        for (int i = 0; i < data->spec.count; ++i) {
            SmdVectorSpec *spec = &data->spec.vecs[i];
            spec->ptr           = smdPhysToVirt(ctx, (uint32_t) vec->vecs[i].ptr);
            spec->size          = vec->vecs[i].size;
            if (IOS_CheckIOPAddressRange(spec->ptr, spec->size, MEM_PERM_RW) != 0) {
                ret = -0xc000f;
                goto done;
            }
            IOS_InvalidateDCache(spec->ptr, spec->size);
        }
    } else if (element->type == SMD_ELEMENT_TYPE_VECTOR) {
        SmdVector *vec = (SmdVector *) smdPhysToVirt(ctx, element->vectorPaddr);
        IOS_InvalidateDCache(vec, sizeof(SmdVector));
        if (vec->count > 4) {
            ret = -0xc0002;
            goto done;
        }
        data->vector = vec;
        // Translate and verify pointers
        for (int i = 0; i < vec->count; ++i) {
            SmdVectorSpec *spec = &data->vector->vecs[i];
            spec->ptr           = smdPhysToVirt(ctx, (uint32_t) spec->ptr);
            if (IOS_CheckIOPAddressRange(spec->ptr, spec->size, MEM_PERM_RW) != 0) {
                ret = -0xc000f;
                goto done;
            }
            IOS_InvalidateDCache(spec->ptr, spec->size);
        }
    } else {
        ret = -0xc0006;
        goto done;
    }
    // Increment read offset
    iface->readOffset = (iface->readOffset + 1) % iface->elementCount;
    IOS_FlushDCache(&iface->readOffset, 4);
 done:;
    if (ctx->shouldLock) {
        IOS_SignalSemaphore(ctx->semaphore);
    }
    return ret;
 }
 static int32_t writeElement(SmdIopContext *ctx, SmdElementType type, void *data, uint32_t size) {
    int32_t ret = 0;
    int32_t outgoing;
    if (ctx->shouldLock) {
        IOS_WaitSemaphore(ctx->semaphore, 0);
    }
    SmdInterface *iface = &ctx->controlTable->ppcInterface;
    IOS_InvalidateDCache(iface, sizeof(SmdInterface));
    if (iface->writeOffset > (int32_t) ctx->ppcElementCount) {
        ret = -0xc0007;
        goto done;
    }
    // figure out how many outgoing messages we can send
    if (iface->writeOffset < iface->readOffset) {
        outgoing = iface->readOffset - iface->writeOffset;
    } else {
        outgoing = iface->elementCount - iface->writeOffset;
        if (iface->readOffset >= 0) {
            outgoing += iface->readOffset;
        }
    }
    if (outgoing <= 0) {
        goto done;
    }
    // write data to element
    SmdElement *element = &ctx->ppcElementBuf[iface->writeOffset];
    element->type       = type;
    element->size       = size;
    memcpy(element->data, data, size);
    IOS_FlushDCache(element, sizeof(SmdElement));
    // Increment write offset
    iface->writeOffset = (iface->writeOffset + 1) % iface->elementCount;
    IOS_FlushDCache(&iface->writeOffset, 4);
 done:;
    if (ctx->shouldLock) {
        IOS_SignalSemaphore(ctx->semaphore);
    }
    return ret;
 }
 int32_t smdIopSendVector(int32_t index, SmdVector *vector) {
    if (index > 7) {
        return -0xc0003;
    }
    SmdIopContext *ctx = &contexts[index];
    if (vector->count > 4) {
        return -0xc0002;
    }
    // flush and translate pointers
    for (int i = 0; i < vector->count; ++i) {
        SmdVectorSpec *spec = &vector->vecs[i];
        IOS_FlushDCache(spec->ptr, spec->size);
        spec->ptr = (void *) smdVirtToPhys(ctx, spec->ptr);
    }
    IOS_FlushDCache(vector, sizeof(SmdVector));
    // write vector paddr as element
    uint32_t paddr = smdVirtToPhys(ctx, vector);
    return writeElement(ctx, SMD_ELEMENT_TYPE_VECTOR, &paddr, sizeof(paddr));
 }
--- a/source/ios_mcp/source/smd.h
+++ b/source/ios_mcp/source/smd.h
@ -0,0 +1,128 @@
 #pragma once
 #include <assert.h>
 #include <stdint.h>
 #ifndef PACKED
 #define PACKED __attribute__((__packed__))
 #endif
 #ifndef CHECK_SIZE
 #define CHECK_SIZE(type, size) static_assert(sizeof(type) == size, #type " must be " #size " bytes")
 #endif
 typedef enum SmdState SmdState;
 typedef enum SmdInterfaceState SmdInterfaceState;
 typedef enum SmdElementType SmdElementType;
 typedef struct SmdIopContext SmdIopContext;
 typedef struct SmdInterface SmdInterface;
 typedef struct SmdControlTable SmdControlTable;
 typedef struct SmdVectorSpec SmdVectorSpec;
 typedef struct SmdVector SmdVector;
 typedef struct SmdElement SmdElement;
 typedef struct SmdReceiveData SmdReceiveData;
 enum SmdState {
    SMD_STATE_INVALID     = 0,
    SMD_STATE_INITIALIZED = 2,
    SMD_STATE_CLOSED      = 3,
    SMD_STATE_OPENED      = 4,
 };
 enum SmdInterfaceState {
    SMD_INTERFACE_STATE_OPENED = 0x2222,
    SMD_INTERFACE_STATE_CLOSED = 0x3333,
 };
 enum SmdElementType {
    SMD_ELEMENT_TYPE_MESSAGE     = 0,
    SMD_ELEMENT_TYPE_VECTOR_SPEC = 1,
    SMD_ELEMENT_TYPE_VECTOR      = 2,
 };
 struct SmdIopContext {
    SmdControlTable *controlTable;
    int32_t memVirtOffset;
    int32_t memPhysOffset;
    int shouldLock;
    int semaphore;
    int hasSemaphore;
    int logHandle;
    SmdElement *iopElementBuf;
    uint32_t iopElementCount;
    SmdElement *ppcElementBuf;
    uint32_t ppcElementCount;
    SmdState state;
 };
 struct PACKED SmdInterface {
    uint32_t state;
    uint8_t __padding0[0x7C];
    uint32_t elementCount;
    uint8_t __padding1[0x7C];
    int32_t readOffset;
    uint8_t __padding2[0x7C];
    int32_t writeOffset;
    uint8_t __padding3[0x7C];
    uint32_t bufPaddr;
    uint8_t __padding4[0x7C];
 };
 CHECK_SIZE(SmdInterface, 0x280);
 struct PACKED SmdControlTable {
    char name[0x10];
    uint32_t reinitCount;
    uint8_t __padding0[0x6C];
    SmdInterface iopInterface;
    uint8_t __padding1[0x40];
    SmdInterface ppcInterface;
    uint8_t __padding2[0x40];
 };
 CHECK_SIZE(SmdControlTable, 0x600);
 struct PACKED SmdVectorSpec {
    void *ptr;
    uint32_t size;
 };
 CHECK_SIZE(SmdVectorSpec, 0x8);
 struct PACKED SmdVector {
    uint32_t id;
    int32_t count;
    SmdVectorSpec vecs[4];
 };
 CHECK_SIZE(SmdVector, 0x28);
 struct PACKED SmdElement {
    uint32_t type;
    uint32_t size;
    union {
        uint8_t data[0xf8];
        SmdVector spec;
        uint32_t vectorPaddr;
    };
 };
 CHECK_SIZE(SmdElement, 0x100);
 struct PACKED SmdReceiveData {
    uint32_t type;
    uint32_t size;
    union {
        uint8_t message[0x80];
        SmdVector spec;
        SmdVector *vector;
    };
 };
 CHECK_SIZE(SmdReceiveData, 0x88);
 int32_t smdIopInit(int32_t index, SmdControlTable *table, const char *name, int lock);
 int32_t smdIopOpen(int32_t index);
 int32_t smdIopClose(int32_t index);
 int32_t smdIopGetInterfaceState(int32_t index, SmdInterfaceState *iopState, SmdInterfaceState *ppcState);
 int32_t smdIopReceive(int32_t index, SmdReceiveData *data);
 int32_t smdIopSendVector(int32_t index, SmdVector *vector);
--- a/source/ios_mcp/source/socket.c
+++ b/source/ios_mcp/source/socket.c
@ -209,3 +209,27 @@ int send(int sockfd, const void *buf, size_t len, int flags) {
    freeIobuf(iobuf);
    return ret;
 }
 int setsockopt(int sockfd, int level, int optname, const void *optval, socklen_t optlen) {
    void *data_buf = svcAllocAlign(0xCAFF, optlen, 0x40);
    if (!data_buf) return -100;
    u8 *iobuf      = allocIobuf(sizeof(IOSVec) * 2 + sizeof(uint32_t) * 3);
    iovec_s *iovec = (iovec_s *) iobuf;
    memcpy(data_buf, optval, optlen);
    iovec[0].ptr = data_buf;
    iovec[0].len = optlen;
    iovec[1].ptr = iovec;
    iovec[1].len = sizeof(IOSVec) * 3;
    ((uint32_t *) iovec)[6] = sockfd;
    ((uint32_t *) iovec)[7] = level;
    ((uint32_t *) iovec)[8] = optname;
    int ret = svcIoctlv(socket_handle, 0x9, 2, 0, iovec);
    freeIobuf(iobuf);
    freeIobuf(data_buf);
    return ret;
 }
--- a/source/ios_mcp/source/socket.h
+++ b/source/ios_mcp/source/socket.h
@ -5,7 +5,7 @@
 #include <stdint.h>
 #include <stdio.h>
-#define SOL_SOCKET         0xFFFF
+#define SOL_SOCKET         -1
 #define PF_UNSPEC          0
 #define PF_INET            2
@ -30,24 +30,29 @@
 #define SHUT_WR            1
 #define SHUT_RDWR          2
-#define SO_DEBUG           0x0001
+/*
-#define SO_ACCEPTCONN      0x0002
+ * SOL_SOCKET options
-#define SO_REUSEADDR       0x0004
+ */
-#define SO_KEEPALIVE       0x0008
+#define SO_REUSEADDR       0x0004 // reuse address
-#define SO_DONTROUTE       0x0010
+#define SO_KEEPALIVE       0x0008 // keep connections alive
-#define SO_BROADCAST       0x0020
+#define SO_BROADCAST       0x0020 // broadcast
-#define SO_USELOOPBACK     0x0040
+#define SO_LINGER          0x0080 // linger (no effect?)
-#define SO_LINGER          0x0080
+#define SO_OOBINLINE       0x0100 // out-of-band data inline (no effect?)
-#define SO_OOBINLINE       0x0100
+#define SO_TCPSACK         0x0200 // set tcp selective acknowledgment
-#define SO_REUSEPORT       0x0200
+#define SO_WINSCALE        0x0400 // set tcp window scaling
-#define SO_SNDBUF          0x1001
+#define SO_SNDBUF          0x1001 // send buffer size
-#define SO_RCVBUF          0x1002
+#define SO_RCVBUF          0x1002 // receive buffer size
-#define SO_SNDLOWAT        0x1003
+#define SO_SNDLOWAT        0x1003 // send low-water mark (no effect?)
-#define SO_RCVLOWAT        0x1004
+#define SO_RCVLOWAT        0x1004 // receive low-water mark
-#define SO_SNDTIMEO        0x1005
+#define SO_TYPE            0x1008 // get socket type
-#define SO_RCVTIMEO        0x1006
+#define SO_ERROR           0x1009 // get socket error
-#define SO_ERROR           0x1007
+#define SO_RXDATA          0x1011 // get count of bytes in sb_rcv
-#define SO_TYPE            0x1008
+#define SO_TXDATA          0x1012 // get count of bytes in sb_snd
 #define SO_NBIO            0x1014 // set socket to NON-blocking mode
 #define SO_BIO             0x1015 // set socket to blocking mode
 #define SO_NONBLOCK        0x1016 // set/get blocking mode via optval param
 #define TCP_NODELAY        0x2004
 #define INADDR_ANY         0x00000000
 #define INADDR_BROADCAST   0xFFFFFFFF