Exemple #1
0
AJ_Status AJ_WSL_NET_set_sock_options(uint32_t socket, uint32_t level, uint32_t optname, uint32_t optlen, uint8_t* optval)
{
    AJ_Status status;
    AJ_InfoPrintf(("AJ_WSL_NET_set_sock_options()\n"));
    wsl_work_item* item;
    AJ_BufList* opts;
    AJ_BufNode* trailer;
    uint32_t total_length;
    opts = AJ_BufListCreate();
    total_length = AJ_SOCK_OPTS_OFFSET + optlen;

    WSL_MarshalPacket(opts, WSL_SOCKET, WSL_SOCK_SETSOCKOPT, total_length, AJ_WSL_SOCKET_CONTEXT[socket].targetHandle, level, optname, optlen);
    if (optname == WSL_JOIN_GROUP) {
        trailer = AJ_BufListCreateNode((optlen / 2) + 2);
        memcpy(opts->tail->buffer + opts->tail->length - 17, optval, (optlen / 2) + 1);
        memcpy(trailer->buffer, optval + 17, 15);
    } else {
        trailer = AJ_BufListCreateNode(optlen + 3);
        memset(trailer->buffer, 0, optlen + 3);
    }
    AJ_BufListPushTail(opts, trailer);


    WMI_MarshalHeader(opts, 1, 1);
    //AJ_BufListPrintDumpContinuous(opts);
    AJ_WSL_WMI_QueueWorkItem(socket, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_SETSOCKOPT), AJ_WSL_HTC_DATA_ENDPOINT1, opts);
    // wait until the command completes
    status = AJ_WSL_WMI_WaitForWorkItem(socket, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_SETSOCKOPT), &item);
    AJ_WSL_WMI_FreeWorkItem(item);
    return status;
}
Exemple #2
0
AJ_Status AJ_WSL_NET_SetPassphrase(const char* SSID, const char* passphrase, uint32_t passLen)
{
    AJ_Status status;
    AJ_BufList* passphraseList;
    passphraseList = AJ_BufListCreate();
    uint8_t* hexPassphrase = NULL;
    if (passLen == 64) {
        hexPassphrase = (uint8_t*)AJ_WSL_Malloc(32);
        status = AJ_HexToRaw(passphrase, 64, hexPassphrase, 32);
        if (status == AJ_OK) {
            WSL_MarshalPacket(passphraseList, WMI_SET_PMK, 0, hexPassphrase, 32);
        } else {
            AJ_WSL_Free(hexPassphrase);
            // Passphrase was not valid HEX data
            return AJ_ERR_INVALID;
        }
    } else {
        WSL_MarshalPacket(passphraseList, WSL_SET_PASSPHRASE, 0, SSID, passphrase, strlen(SSID), passLen);
    }
    WMI_MarshalHeader(passphraseList, 1, 1);
    AJ_InfoPrintf(("AJ_WSL_NET_SetPassphrase(): SET_PASSPHRASE\n"));
    AJ_WSL_WMI_PadPayload(passphraseList);
    //AJ_BufListPrintDumpContinuous(passphraseList);

    status = AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_SET_PASSPHRASE), AJ_WSL_HTC_DATA_ENDPOINT1, passphraseList);
    AJ_WSL_Free(hexPassphrase);
    return status;
}
Exemple #3
0
/*
 *  create the WMI request to connect to a socket
 */
AJ_Status AJ_WSL_NET_socket_connect(AJ_WSL_SOCKNUM sock, uint32_t addr, uint16_t port, uint16_t family)
{
    AJ_Status status;
    AJ_BufList* connectV4;
    wsl_work_item* item = NULL;
    connectV4 = AJ_BufListCreate();
    WSL_MarshalPacket(connectV4, WSL_SOCKET, WSL_SOCK_CONNECT, 0x0, AJ_WSL_SOCKET_CONTEXT[sock].targetHandle, port, family, &addr, 0x8);
    WMI_MarshalHeader(connectV4, 1, 1);
    AJ_WSL_WMI_PadPayload(connectV4);

    //AJ_BufListPrintDumpContinuous(connectV4);
    AJ_WSL_WMI_QueueWorkItem(sock, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_CONNECT), AJ_WSL_HTC_DATA_ENDPOINT1, connectV4);

    do {
        status = AJ_WSL_WMI_WaitForWorkItem(sock, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_CONNECT), &item);

        if (item) {
            if (item->itemType == AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_CONNECT)) {
                AJ_InfoPrintf(("AJ_WSL_NET_socket_connect(): WORK ITEM RECEIVED\n"));
                AJ_WSL_WMI_FreeWorkItem(item);
                break;
            } else {
                AJ_WarnPrintf(("AJ_WSL_NET_socket_connect(): BAD WORK ITEM RECEIVED\n"));
            }
            AJ_WSL_WMI_FreeWorkItem(item);
        }
    } while (1);

    return status;
}
Exemple #4
0
void AJ_WSL_SetProbedSSID(const char* ssid, uint8_t flag)
{
    AJ_BufList* probed_ssid;
    probed_ssid = AJ_BufListCreate();
    WSL_MarshalPacket(probed_ssid, WSL_SET_PROBED_SSID, 0, 0, flag, strlen(ssid), ssid);
    WMI_MarshalHeader(probed_ssid, 1, 1);
    AJ_WSL_WMI_PadPayload(probed_ssid);
    AJ_WSL_WMI_QueueWorkItem(0, WSL_SET_PROBED_SSID, AJ_WSL_HTC_DATA_ENDPOINT1, probed_ssid);
}
Exemple #5
0
void AJ_WSL_NET_BSS_FILTER(uint8_t flag) {
    AJ_InfoPrintf(("AJ_WSL_NET_BSS_FILTER(): SET_BSS_FILTER\n"));
    AJ_BufList* bssfilter;
    bssfilter = AJ_BufListCreate();
    WSL_MarshalPacket(bssfilter, WSL_SET_BSS_FILTER, 0, flag, 0, 0, 0);
    WMI_MarshalHeader(bssfilter, 1, 1);
    AJ_WSL_WMI_PadPayload(bssfilter);
    AJ_WSL_WMI_QueueWorkItem(0, WSL_SET_BSS_FILTER, AJ_WSL_HTC_DATA_ENDPOINT1, bssfilter);
}
Exemple #6
0
void AJ_WSL_NET_set_scan_params(void)
{
    AJ_BufList* packet;
    AJ_InfoPrintf(("AJ_WSL_NET_scan(): SET_SCAN_PARAMS\n"));
    packet = AJ_BufListCreate();
    WSL_MarshalPacket(packet, WSL_SET_SCAN_PARAMS, 0, 0x0008, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x00, 0x00, 0x0000, 0x2f03, 0x00000000);
    WMI_MarshalHeader(packet, 1, 1);
    AJ_WSL_WMI_PadPayload(packet);
    AJ_WSL_WMI_QueueWorkItem(0, WSL_SET_SCAN_PARAMS, AJ_WSL_HTC_DATA_ENDPOINT1, packet);
}
Exemple #7
0
void AJ_WSL_NET_add_cipher_key(uint8_t keyIndex, uint8_t* key, uint8_t keyLength)
{
    AJ_BufList* add_key;
    add_key = AJ_BufListCreate();
    static const uint8_t zero_mac[6] = { 0x00, 0x00, 0x00, 0x00, 0x00, 0x00 };
    WSL_MarshalPacket(add_key, WSL_ADD_CIPHER_KEY, 0, 0, 0x02, 0x03, keyLength, 0, 0, key, 0x03, &zero_mac);
    WMI_MarshalHeader(add_key, 1, 1);
    AJ_WSL_WMI_PadPayload(add_key);
    AJ_WSL_WMI_QueueWorkItem(0, WSL_ADD_CIPHER_KEY, AJ_WSL_HTC_DATA_ENDPOINT1, add_key);

}
Exemple #8
0
void AJ_WSL_NET_StackInit(void)
{
    AJ_InfoPrintf(("AJ_WSL_NET_connect(): STACK_INIT\n"));
    AJ_BufList* stack_init;
    stack_init = AJ_BufListCreate();

    WSL_MarshalPacket(stack_init, WSL_SOCKET, WSL_SOCK_STACK_INIT, 0x04, 0x01, 0x05, 0x08, 0x1f);
    WMI_MarshalHeader(stack_init, 1, 1);
    AJ_WSL_WMI_PadPayload(stack_init);
    //AJ_BufListPrintDumpContinuous(stack_init);
    AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_STACK_INIT), AJ_WSL_HTC_DATA_ENDPOINT1, stack_init);
}
Exemple #9
0
AJ_Status AJ_WSL_NET_ipconfig_dhcp_pool(const uint32_t* startIP, const uint32_t* endIP, uint32_t leaseTime)
{
    AJ_InfoPrintf(("===== ipconfig dhcp pool ====\n"));
    AJ_BufList* pool;
    pool = AJ_BufListCreate();
    WSL_MarshalPacket(pool, WSL_SOCKET, WSL_SOCK_IPCONFIG_DHCP_POOL, 0x0c, startIP, endIP, leaseTime);
    WMI_MarshalHeader(pool, 1, 1);
    AJ_WSL_WMI_PadPayload(pool);
    //AJ_BufListPrintDumpContinuous(pool);
    AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_SOCK_IPCONFIG_DHCP_POOL), AJ_WSL_HTC_DATA_ENDPOINT1, pool);
    return AJ_OK;
}
Exemple #10
0
AJ_Status AJ_WSL_NET_ip6config_router_prefix(const uint8_t* ipv6addr, uint32_t prefix_length, uint32_t lifetimePrefix, uint32_t lifetimeValid)
{
    AJ_InfoPrintf(("===== ip6config router prefix ====\n"));
    AJ_BufList* prefix;
    prefix = AJ_BufListCreate();
    WSL_MarshalPacket(prefix, WSL_SOCKET, WSL_SOCK_IP6CONFIG_ROUTER_PREFIX, 0x21, ipv6addr, prefix_length, lifetimePrefix, lifetimeValid);
    WMI_MarshalHeader(prefix, 1, 1);
    AJ_WSL_WMI_PadPayload(prefix);
    //AJ_BufListPrintDumpContinuous(prefix);
    AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IP6CONFIG_ROUTER_PREFIX), AJ_WSL_HTC_DATA_ENDPOINT1, prefix);
    return AJ_OK;
}
Exemple #11
0
AJ_Status AJ_WSL_NET_SetPowerMode(uint8_t mode)
{
    AJ_Status status;
    AJ_BufList* power_mode;
    power_mode = AJ_BufListCreate();
    WSL_MarshalPacket(power_mode, WSL_SET_POWER_MODE, 0, mode);
    WMI_MarshalHeader(power_mode, 1, 1);

    AJ_WSL_WMI_PadPayload(power_mode);
    //AJ_BufListPrintDumpContinuous(power_mode);
    status = AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_SET_POWER_MODE), AJ_WSL_HTC_DATA_ENDPOINT1, power_mode);
    return status;
}
Exemple #12
0
AJ_Status AJ_WSL_NET_SetHiddenAP(uint8_t hidden)
{
    AJ_Status status;
    AJ_BufList* hiddenList;
    hiddenList = AJ_BufListCreate();

    WSL_MarshalPacket(hiddenList, WSL_SET_HIDDEN_AP, 0, hidden);
    WMI_MarshalHeader(hiddenList, 1, 1);
    AJ_InfoPrintf(("AJ_WSL_NET_SetHiddenAP(): AP_HIDDEN_SSID\n"));
    AJ_WSL_WMI_PadPayload(hiddenList);
    //AJ_BufListPrintDumpContinuous(passphraseList);
    status = AJ_WSL_WMI_QueueWorkItem(0, WSL_SET_HIDDEN_AP, AJ_WSL_HTC_DATA_ENDPOINT1, hiddenList);
    return status;
}
Exemple #13
0
/*
 *  create the WMI request to open a socket on the target device
 */
int8_t AJ_WSL_NET_socket_open(uint16_t domain, uint16_t type, uint16_t protocol)
{
    AJ_Status status;
    uint8_t handle = AJ_WSL_SOCKET_MAX;

    AJ_BufList* open;
    open = AJ_BufListCreate();
    WSL_MarshalPacket(open, WSL_SOCKET, WSL_SOCK_OPEN, 0x0c, domain, type, protocol);
    WMI_MarshalHeader(open, 1, 1);
    AJ_WSL_WMI_PadPayload(open);
    //AJ_BufListPrintDumpContinuous(open);
    AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_OPEN), AJ_WSL_HTC_DATA_ENDPOINT1, open);
    // wait until the command completes
    {
        wsl_work_item* item = NULL;
        status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_OPEN), &item);
        if (status != AJ_OK) {
            AJ_WSL_WMI_FreeWorkItem(item);
            return -1;
        }
        if (item) {
            if (item->itemType == AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_OPEN)) {
                AJ_InfoPrintf(("AJ_WSL_NET_socket_open(): WORK ITEM RECEIVED\n"));
                uint16_t WMIEvent;
                uint32_t reserved;
                uint32_t _command;
                uint32_t _handle;
                uint32_t _error;
                uint32_t _mode;

                WMI_Unmarshal(item->node->buffer, "quuuuu", &WMIEvent, &reserved, &_command, &_handle, &_error, &_mode);
                AJ_InfoPrintf((" Socket Open: handle %08lx error %08lx\n", _handle, _error));
                handle = AJ_WSL_FindOpenSocketContext();
                if (handle != AJ_WSL_SOCKET_MAX) {
                    AJ_WSL_SOCKET_CONTEXT[handle].targetHandle = _handle;
                    AJ_WSL_SOCKET_CONTEXT[handle].valid = TRUE;
                    AJ_WSL_SOCKET_CONTEXT[handle].domain = domain;
                    AJ_WSL_SOCKET_CONTEXT[handle].type = type;
                    AJ_WSL_SOCKET_CONTEXT[handle].protocol = protocol;

                }
            } else {
                AJ_WarnPrintf(("AJ_WSL_NET_socket_open(): BAD WORK ITEM RECEIVED\n"));
            }
        }
        AJ_WSL_WMI_FreeWorkItem(item);
    }
    AJ_Sleep(100);
    return handle;
}
Exemple #14
0
AJ_Status AJ_WSL_NET_socket_bind6(AJ_WSL_SOCKNUM sock, uint8_t* addr, uint16_t port)
{
    AJ_Status status;
    AJ_BufList* bind;
    wsl_work_item* item;
    bind = AJ_BufListCreate();
    WSL_MarshalPacket(bind, WSL_BIND6, 0x0, 0x03, 0x24, AJ_WSL_SOCKET_CONTEXT[sock].targetHandle, 0x00, port, addr, 0x00, 0x00020383, 0x0002001c);
    WMI_MarshalHeader(bind, 1, 1);
    AJ_WSL_WMI_PadPayload(bind);
    //AJ_BufListPrintDumpContinuous(bind);
    AJ_WSL_WMI_QueueWorkItem(sock, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_BIND), AJ_WSL_HTC_DATA_ENDPOINT1, bind);
    status = AJ_WSL_WMI_WaitForWorkItem(sock, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_NET_BIND), &item);
    AJ_WSL_WMI_FreeWorkItem(item);
    return status;
}
Exemple #15
0
AJ_Status AJ_WSL_NET_set_hostname(const char* hostname)
{
    AJ_Status status;
    AJ_InfoPrintf(("===== SET HOSTNAME ====\n"));
    wsl_work_item* item;
    AJ_BufList* host;
    host = AJ_BufListCreate();
    WSL_MarshalPacket(host, WSL_SOCKET, WSL_SOCK_IP_HOST_NAME, 0x21, hostname);
    WMI_MarshalHeader(host, 1, 1);
    AJ_WSL_WMI_PadPayload(host);
    //AJ_BufListPrintDumpContinuous(host);
    AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IP_HOST_NAME), AJ_WSL_HTC_DATA_ENDPOINT1, host);
    status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IP_HOST_NAME), &item);
    AJ_WSL_WMI_FreeWorkItem(item);
    return status;
}
Exemple #16
0
/*
 *  create the WMI request to bind a socket on the target device to an address and port
 */
AJ_Status AJ_WSL_NET_socket_bind(AJ_WSL_SOCKNUM sock, uint32_t addr, uint16_t port)
{
    AJ_Status status;
    AJ_BufList* bind;
    wsl_work_item* item;
    bind = AJ_BufListCreate();
    WSL_MarshalPacket(bind, WSL_SOCKET, WSL_SOCK_BIND, 0x0, AJ_WSL_SOCKET_CONTEXT[sock].targetHandle, port, AJ_WSL_UDP, &addr, 0x8);
    WMI_MarshalHeader(bind, 1, 1);
    AJ_WSL_WMI_PadPayload(bind);
    //AJ_BufListPrintDumpContinuous(bind);
    AJ_WSL_WMI_QueueWorkItem(sock, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_BIND), AJ_WSL_HTC_DATA_ENDPOINT1, bind);
    status = AJ_WSL_WMI_WaitForWorkItem(sock, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_BIND), &item, AJ_NET_TIMEOUT);
    if (item && (status == AJ_OK)) {
        AJ_WSL_WMI_FreeWorkItem(item);
    }
    return status;
}
Exemple #17
0
AJ_Status AJ_WSL_NET_disconnect(void)
{
    AJ_Status status;
    AJ_BufList* disconnect;
    wsl_work_item* item;
    AJ_AlwaysPrintf((("AJ_WSL_NET_disconnect(): DISCONNECT\n")));
    disconnect = AJ_BufListCreate();
    WSL_MarshalPacket(disconnect, WSL_DISCONNECT, 0, 0, 0, 0, 0, 0, 0, 0);
    WMI_MarshalHeader(disconnect, 1, 1);
    AJ_WSL_WMI_PadPayload(disconnect);
    //AJ_BufListPrintDumpContinuous(disconnect);
    AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_DISCONNECT), AJ_WSL_HTC_DATA_ENDPOINT1, disconnect);

    status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_DISCONNECT), &item);
    AJ_WSL_WMI_FreeWorkItem(item);
    return status;
}
Exemple #18
0
/*
 *  create the WMI request to close a socket on the target device
 */
AJ_Status AJ_WSL_NET_socket_close(AJ_WSL_SOCKNUM sock)
{
    AJ_Status status;
    AJ_BufList* close;

    if (AJ_WSL_SOCKET_CONTEXT[sock].valid == TRUE) {
        close = AJ_BufListCreate();
        WSL_MarshalPacket(close, WSL_SOCKET, WSL_SOCK_CLOSE, 0x0, AJ_WSL_SOCKET_CONTEXT[sock].targetHandle);
        WMI_MarshalHeader(close, 1, 1);
        AJ_WSL_WMI_PadPayload(close);
        //AJ_BufListPrintDumpContinuous(close);
        AJ_WSL_WMI_QueueWorkItem(sock, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_CLOSE), AJ_WSL_HTC_DATA_ENDPOINT1, close);
        // wait until the command completes
        do {
            wsl_work_item* item = NULL;
            status = AJ_WSL_WMI_WaitForWorkItem(sock, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_CLOSE), &item);
            if (item) {
                if (item->itemType == AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_CLOSE)) {
                    AJ_InfoPrintf(("AJ_WSL_NET_socket_close(): WORK ITEM RECEIVED\n"));
                    uint16_t WMIEvent;
                    uint32_t reserved;
                    uint32_t _command;
                    uint32_t _handle;
                    uint32_t _error;
                    uint32_t _mode;

                    WMI_Unmarshal(item->node->buffer, "quuuuu", &WMIEvent, &reserved, &_command, &_handle, &_error, &_mode);
                    AJ_InfoPrintf((" Socket close: handle %08lx error %08lx\n", _handle, _error));
                    if (_handle == AJ_WSL_SOCKET_CONTEXT[sock].targetHandle) {
                        AJ_WSL_SOCKET_CONTEXT[sock].targetHandle = UINT32_MAX;
                        AJ_WSL_SOCKET_CONTEXT[sock].valid = FALSE;
                    }
                    AJ_WSL_WMI_FreeWorkItem(item);
                    break; // waited until close command completed
                } else {
                    AJ_InfoPrintf(("AJ_WSL_NET_socket_close(): BAD WORK ITEM RECEIVED\n"));
                }
            }
            AJ_WSL_WMI_FreeWorkItem(item);
        } while (1);

    }
    return status;
}
Exemple #19
0
AJ_Status AJ_WSL_ip6config(uint32_t mode, uint8_t* globalAddr, uint8_t* localAddr, uint8_t* gateway, uint8_t* exAddr, uint32_t linkPrefix, uint32_t globalPrefix, uint32_t gwPrefix, uint32_t glbPrefixExt)
{
    AJ_Status status;
    if (mode != IPCONFIG_QUERY) {
        AJ_ErrPrintf(("AJ_WSL_ip6config(): Can only query IPV6, cannot use mode %lu\n", mode));
        return AJ_ERR_UNEXPECTED;
    }
    AJ_BufList* ip6config;
    ip6config = AJ_BufListCreate();                                                 //First zeros are for v4
    WSL_MarshalPacket(ip6config, WSL_SOCKET, WSL_SOCK_IP6CONFIG, 0x60, 0, 0, 0, 0, globalAddr, localAddr, gateway, exAddr, linkPrefix, globalPrefix, gwPrefix, glbPrefixExt);
    WMI_MarshalHeader(ip6config, 1, 1);
    AJ_WSL_WMI_PadPayload(ip6config);

    //AJ_BufListPrintDumpContinuous(ip6config);
    AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IP6CONFIG), AJ_WSL_HTC_DATA_ENDPOINT1, ip6config);

    {
        wsl_work_item* item = NULL;

        status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IP6CONFIG), &item);
        if (item) {
            if (item->itemType == AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IP6CONFIG)) {
                AJ_InfoPrintf(("AJ_WSL_ip6config(): WORK ITEM RECEIVED\n"));
                uint16_t WMIEvent;
                uint32_t reserved;
                uint32_t _command;
                uint32_t _handle;
                uint32_t _error;
                uint32_t _mode;
                uint32_t _ipv4 = 0;
                uint32_t _ipv4mask = 0;
                uint32_t _ipv4gateway = 0;

                WMI_Unmarshal(item->node->buffer, "quuuuuuuu6666uuuu", &WMIEvent, &reserved, &_command, &_handle, &_error, &_mode, _ipv4, _ipv4mask, _ipv4gateway, localAddr, globalAddr, gateway, exAddr, &linkPrefix, &globalPrefix, &gwPrefix, &glbPrefixExt);
                //AJ_DumpBytes("IPV6", item->node->buffer, 0x60);
            } else {
                AJ_WarnPrintf(("AJ_WSL_ip6config(): BAD WORK ITEM RECEIVED\n"));
            }
        }
        AJ_WSL_WMI_FreeWorkItem(item);
    }
    return status;
}
Exemple #20
0
AJ_Status AJ_WSL_NET_scan(void)
{
    AJ_Status status;
    AJ_BufList* start_scan;
    wsl_work_item* item;
    AJ_WSL_InitScanList();

    AJ_WSL_NET_BSS_FILTER(1);

    AJ_WSL_NET_set_scan_params();

    AJ_AlwaysPrintf((("AJ_WSL_NET_scan(): START_SCAN\n")));
    start_scan = AJ_BufListCreate();
    WSL_MarshalPacket(start_scan, WSL_START_SCAN, 0, 0, 0, 0, 0, 0, 0, 0);
    WMI_MarshalHeader(start_scan, 1, 1);
    AJ_WSL_WMI_PadPayload(start_scan);

    AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_SCAN), AJ_WSL_HTC_DATA_ENDPOINT1, start_scan);
    status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_SCAN), &item);
    AJ_WSL_WMI_FreeWorkItem(item);
    return status;
}
Exemple #21
0
AJ_Status AJ_WSL_NET_scan(void)
{
    AJ_Status status;
    AJ_BufList* start_scan;
    wsl_work_item* item;

    AJ_WSL_NET_BSS_FILTER(1);

    AJ_WSL_NET_set_scan_params();

    AJ_InfoPrintf((("AJ_WSL_NET_scan(): START_SCAN\n")));
    start_scan = AJ_BufListCreate();
    WSL_MarshalPacket(start_scan, WSL_START_SCAN, 0, 0, 0, 0, 0, 0, 0, 0);
    WMI_MarshalHeader(start_scan, 1, 1);
    AJ_WSL_WMI_PadPayload(start_scan);

    AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_SCAN), AJ_WSL_HTC_DATA_ENDPOINT1, start_scan);
    status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_SCAN), &item, AJ_NET_TIMEOUT);
    if (item && (status == AJ_OK)) {
        if (item->itemType == WSL_NET_SCAN) {
            AJ_InfoPrintf(("AJ_WSL_NET_scan(): WORK ITEM RECEIVED\n"));
            uint16_t WMIEvent;
            uint32_t toss;
            uint32_t error;
            WMI_Unmarshal(item->node->buffer, "quu", &WMIEvent, &toss, &error);
            if (error != 0) {
                AJ_ErrPrintf(("AJ_WSL_NET_scan(): Scan error, scan returned: %u", error));
                status = AJ_ERR_INVALID;
            }
        } else {
            AJ_WarnPrintf(("AJ_WSL_NET_scan(): BAD WORK ITEM RECEIVED\n"));
        }
        AJ_WSL_WMI_FreeWorkItem(item);
    }
    return status;
}
Exemple #22
0
AJ_EXPORT AJ_Status AJ_WSL_NET_connect(const char* SSID, const char* passphrase, WSL_NET_AUTH_MODE auth, WSL_NET_CRYPTO_TYPE crypto, uint8_t softAP)
{
    AJ_Status status;
    wsl_scan_list* list;
    list = (wsl_scan_list*)AJ_WSL_GetScanList();

    WSL_ClearScanList(list);

    AJ_WSL_NET_SetPowerMode(2);

    uint8_t bss_mac[6];
    // Open auth does not require you to explicitly set the BSSID so this secondary scan is not needed

    if (!softAP) {
        if (auth != WSL_NET_AUTH_NONE) {
            // Do a scan of just the SSID you want
            AJ_WSL_SetProbedSSID(SSID, 1);

            {
                AJ_BufList* start_scan;
                uint8_t found = 0;
                int i;
                AJ_WSL_NET_set_scan_params();

                while (!found) {
                    wsl_work_item* item;
                    AJ_InfoPrintf(("AJ_WSL_NET_scan(): START_SCAN\n"));
                    start_scan = AJ_BufListCreate();
                    AJ_WSL_SetProbedSSID(SSID, 1);
                    AJ_WSL_NET_set_scan_params();
                    AJ_WSL_NET_BSS_FILTER(6);
                    WSL_MarshalPacket(start_scan, WSL_START_SCAN, 0, 0, 0, 0, 0, 0, 0, 0);
                    WMI_MarshalHeader(start_scan, 1, 1);
                    AJ_WSL_WMI_PadPayload(start_scan);
                    //AJ_BufListPrintDumpContinuous(start_scan);
                    AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_SCAN), AJ_WSL_HTC_DATA_ENDPOINT1, start_scan);

                    status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_SCAN), &item);
                    AJ_WSL_WMI_FreeWorkItem(item);

                    // Get the new list (just of the SSID provided in the connect command)
                    AJ_WSL_NET_scan_stop();
                    list = (wsl_scan_list*)AJ_WSL_GetScanList();
                    if (list->size == 0) {
                        AJ_AlwaysPrintf(("Could not find access point %s\n", SSID));
                        WSL_ClearScanList(list);
                        AJ_Sleep(AJ_WSL_CONNECT_WAIT);
                        continue;
                    }
                    WSL_PrintScanSorted();


                    // Find the SSID you want to connect to in the second scan list
                    for (i = 0; i < list->size; i++) {
                        if (0 == strcmp(list->list[i].ssid, SSID)) {
                            memcpy(&bss_mac, list->list[i].bssid, 6);
                            found = 1;
                            break;
                        }
                    }
                    WSL_ClearScanList(list);
                }
            }
        }
    }
    {
        AJ_BufList* connect;
        AJ_BufList* connectOut;
        static const uint8_t zero_mac[6] = { 0, 0, 0, 0, 0, 0 };
        uint8_t connect_mac[6];
        wsl_work_item* item = NULL;
        uint8_t found = 0;
        connect = AJ_BufListCreate();
        /* Three different ways connect can be called.
         * 1. SoftAP: The devices mac is fetched and used
         * 2. Using Auth: The SSID's mac is found and used
         * 3. Open auth: A zero'ed mac is used
         */
        if (softAP) {
            WSL_MarshalPacket(connect, WSL_SET_SOFT_AP, 0, 0x04, 0x01, auth, crypto, 0x00, crypto, 0x00, strlen(SSID), SSID, 0x0, getDeviceMac(), 0x0044, 0x0000);
            WMI_MarshalHeader(connect, 1, 1);
        } else if ((auth != WSL_NET_AUTH_NONE) && (crypto != WSL_NET_CRYPTO_WEP)) {
            WSL_MarshalPacket(connect, WSL_CONNECT, 0, 0x01, 0x01, auth, crypto, 0x00, crypto, 0x00, strlen(SSID), SSID, 0x0, &bss_mac, 0x0044, 0x0000);
            WMI_MarshalHeader(connect, 1, 1);
        } else { // if the auth mode is open, use zero_mac, and set flags to zero
            WSL_MarshalPacket(connect, WSL_CONNECT, 0, 0x01, 0x01, auth, crypto, 0x00, crypto, 0x00, strlen(SSID), SSID, 0x0, &zero_mac, 0x0000, 0x0000);
            WMI_MarshalHeader(connect, 1, 1);
        }
        AJ_InfoPrintf(("AJ_WSL_NET_connect(): CONNECT\n"));
        AJ_WSL_WMI_PadPayload(connect);
        //AJ_BufListPrintDumpContinuous(connect);
        connectOut = AJ_BufListCreateCopy(connect);

        AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_CONNECT), AJ_WSL_HTC_DATA_ENDPOINT1, connectOut);

        if (softAP) {
            AJ_AlwaysPrintf(("Waiting for a connection to the softAP %s\n", SSID));
            memcpy(&connect_mac, (uint8_t*)getDeviceMac(), sizeof(connect_mac));
            while (WSL_MacsAreEqual((uint8_t*)&connect_mac, (uint8_t*)getDeviceMac()) == TRUE) {

                status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_CONNECT), &item);
                if (item) {
                    if (item->itemType == WSL_NET_CONNECT) {
                        AJ_InfoPrintf(("AJ_WSL_ip6config(): WORK ITEM RECEIVED\n"));
                        uint16_t WMIEvent;
                        uint32_t toss;
                        uint16_t channel;
                        WMI_Unmarshal(item->node->buffer, "quqM", &WMIEvent, &toss, &channel, &connect_mac);
                    } else {
                        AJ_WarnPrintf(("AJ_WSL_NET_connect(): BAD WORK ITEM RECEIVED\n"));
                    }
                    AJ_WSL_WMI_FreeWorkItem(item);
                    found = 1;
                }
            }
        } else {
            status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_CONNECT), &item);
            AJ_WSL_WMI_FreeWorkItem(item);
        }
        AJ_BufListFree(connect, 1);
        return status;
    }
}
Exemple #23
0
AJ_EXPORT AJ_Status AJ_WSL_NET_connect(const char* SSID, const char* passphrase, WSL_NET_AUTH_MODE auth, WSL_NET_CRYPTO_TYPE crypto, uint8_t softAP)
{
    AJ_Status status = AJ_OK;
    wsl_scan_list* list;
    list = (wsl_scan_list*)AJ_WSL_GetScanList();

    AJ_WSL_NET_SetPowerMode(2);

    uint8_t bss_mac[6];
    // Open auth does not require you to explicitly set the BSSID so this secondary scan is not needed

    if (!softAP) {
        if (auth != WSL_NET_AUTH_NONE) {
            AJ_Time timer;
            uint8_t found = 0;
            AJ_InitTimer(&timer);
            while (!found) {
                AJ_WSL_InitScanList(AJ_WSL_SCAN_LIST_SIZE);
                AJ_WSL_SetProbedSSID(SSID, 1);
                status = AJ_WSL_NET_scan();
                // Some kind of scan error
                if (status != AJ_OK) {
                    WSL_ClearScanList();
                    continue;
                }
                AJ_WSL_NET_scan_stop();
                if (AJ_GetElapsedTime(&timer, TRUE) > AJ_WSL_CONNECT_TIMEOUT) {
                    AJ_ErrPrintf(("AJ_WSL_NET_connect() Could not find the access point %s\n", SSID));
                    WSL_ClearScanList();
                    return AJ_ERR_FAILURE;
                }
                // Find the SSID you want to connect to in the second scan list
                if (getMacFromSSID(SSID, bss_mac, list)) {
                    WSL_ClearScanList();
                    found = 1;
                    break;
                } else {
                    WSL_ClearScanList();
                    AJ_Sleep(AJ_WSL_CONNECT_WAIT);
                    continue;
                }
            }
            if (crypto != WSL_NET_CRYPTO_WEP) {
                status = AJ_WSL_NET_SetPassphrase(SSID, passphrase, strlen(passphrase));
                if (status != AJ_OK) {
                    return status;
                }
            }
        }
    }
    {
        AJ_BufList* connect;
        AJ_BufList* connectOut;
        static const uint8_t zero_mac[6] = { 0, 0, 0, 0, 0, 0 };
        uint8_t connect_mac[6];
        wsl_work_item* item = NULL;
        connect = AJ_BufListCreate();
        /* Three different ways connect can be called.
         * 1. SoftAP: The devices mac is fetched and used
         * 2. Using Auth: The SSID's mac is found and used
         * 3. Open auth: A zero'ed mac is used
         */
        if (softAP) {
            WSL_MarshalPacket(connect, WSL_SET_SOFT_AP, 0, 0x04, 0x01, auth, crypto, 0x00, crypto, 0x00, strlen(SSID), SSID, 0x0, getDeviceMac(), 0x0044, 0x0000);
            WMI_MarshalHeader(connect, 1, 1);
        } else if ((auth != WSL_NET_AUTH_NONE) && (crypto != WSL_NET_CRYPTO_WEP)) {
            WSL_MarshalPacket(connect, WSL_CONNECT, 0, 0x01, 0x01, auth, crypto, 0x00, crypto, 0x00, strlen(SSID), SSID, 0x0, &bss_mac, 0x0044, 0x0000);
            WMI_MarshalHeader(connect, 1, 1);
        } else { // if the auth mode is open, use zero_mac, and set flags to zero
            WSL_MarshalPacket(connect, WSL_CONNECT, 0, 0x01, 0x01, auth, crypto, 0x00, crypto, 0x00, strlen(SSID), SSID, 0x0, &zero_mac, 0x0000, 0x0000);
            WMI_MarshalHeader(connect, 1, 1);
        }
        AJ_InfoPrintf(("AJ_WSL_NET_connect(): CONNECT\n"));
        AJ_WSL_WMI_PadPayload(connect);
        //AJ_BufListPrintDumpContinuous(connect);
        connectOut = AJ_BufListCreateCopy(connect);

        AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_CONNECT), AJ_WSL_HTC_DATA_ENDPOINT1, connectOut);

        if (softAP) {
            AJ_AlwaysPrintf(("Waiting for a connection to the softAP %s\n", SSID));
            memcpy(&connect_mac, (uint8_t*)getDeviceMac(), sizeof(connect_mac));
            while (memcmp((uint8_t*)&connect_mac, (uint8_t*)getDeviceMac(), 6) == 0) {
                status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_CONNECT), &item, AJ_TIMER_FOREVER);
                if (item && (status == AJ_OK)) {
                    if (item->itemType == WSL_NET_CONNECT) {
                        AJ_InfoPrintf(("AJ_WSL_NET_connect(): WORK ITEM RECEIVED\n"));
                        uint16_t WMIEvent;
                        uint32_t toss;
                        uint16_t channel;
                        WMI_Unmarshal(item->node->buffer, "quqM", &WMIEvent, &toss, &channel, &connect_mac);
                    } else {
                        AJ_WarnPrintf(("AJ_WSL_NET_connect(): BAD WORK ITEM RECEIVED\n"));
                    }
                    AJ_WSL_WMI_FreeWorkItem(item);
                }
            }
        } else {
            status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_NETWORK, WSL_NET_CONNECT), &item, AJ_TIMER_FOREVER);
            if (item && (status == AJ_OK)) {
                AJ_WSL_WMI_FreeWorkItem(item);
            }
        }
        AJ_BufListFree(connect, 1);
        return status;
    }
}
Exemple #24
0
AJ_Status AJ_WSL_ipconfig(uint32_t mode, uint32_t* ip, uint32_t* mask, uint32_t* gateway)
{
    AJ_Status status = AJ_ERR_DHCP;
    uint16_t ipv6[8] = { 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000, 0x0000 };
    wsl_work_item* item = NULL;
    switch (mode) {
    case (IPCONFIG_QUERY):
        {
            AJ_InfoPrintf(("AJ_WSL_ipconfig(): IPCONFIG_QUERY\n"));
            AJ_BufList* ipconfig;
            ipconfig = AJ_BufListCreate();
            WSL_MarshalPacket(ipconfig, WSL_SOCKET, WSL_SOCK_IPCONFIG, 0x60, 0, ip, mask, gateway, &ipv6, &ipv6, &ipv6, &ipv6, 0, 0, 0, 0);
            WMI_MarshalHeader(ipconfig, 1, 1);
            AJ_WSL_WMI_PadPayload(ipconfig);

            AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IPCONFIG), AJ_WSL_HTC_DATA_ENDPOINT1, ipconfig);
            {
                status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IPCONFIG), &item);
                if (item) {
                    if (item->itemType == AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IPCONFIG)) {
                        AJ_InfoPrintf(("AJ_WSL_ipconfig(): WORK ITEM RECEIVED\n"));
                        uint16_t WMIEvent;
                        uint32_t reserved;
                        uint32_t _command;
                        uint32_t _handle;
                        uint32_t _error;
                        uint32_t _mode;

                        WMI_Unmarshal(item->node->buffer, "quuuuuuuu", &WMIEvent, &reserved, &_command, &_handle, &_error, &_mode, ip, mask, gateway);
                        if (ip != 0) {
                            status = AJ_OK;
                        }
                    } else {
                        AJ_WarnPrintf(("AJ_WSL_ipconfig(): BAD WORK ITEM RECEIVED\n"));
                    }

                }
            }
        }
        AJ_WSL_WMI_FreeWorkItem(item);
        break;

    case (IPCONFIG_STATIC):
        AJ_InfoPrintf(("AJ_WSL_ipconfig(): IPCONFIG_STATIC\n"));
        AJ_BufList* ipconfig_dhcp_static;

        ipconfig_dhcp_static = AJ_BufListCreate();
        WSL_MarshalPacket(ipconfig_dhcp_static, WSL_SOCKET, WSL_SOCK_IPCONFIG, 0x60, 1, ip, mask, gateway, &ipv6, &ipv6, &ipv6, &ipv6, 0, 0, 0, 0);
        WMI_MarshalHeader(ipconfig_dhcp_static, 1, 1);
        AJ_WSL_WMI_PadPayload(ipconfig_dhcp_static);
        //AJ_BufListPrintDumpContinuous(ipconfig_dhcp_static);
        AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IPCONFIG), AJ_WSL_HTC_DATA_ENDPOINT1, ipconfig_dhcp_static);
        status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IPCONFIG), &item);
        AJ_WSL_WMI_FreeWorkItem(item);
        AJ_Sleep(1000);
        break;

    case (IPCONFIG_DHCP):
        AJ_InfoPrintf(("AJ_WSL_ipconfig(): IPCONFIG_DHCP\n"));
        AJ_BufList* ipconfig_dhcp;

        ipconfig_dhcp = AJ_BufListCreate();
        WSL_MarshalPacket(ipconfig_dhcp, WSL_SOCKET, WSL_SOCK_IPCONFIG, 0x60, 2, ip, mask, gateway, &ipv6, &ipv6, &ipv6, &ipv6, 0, 0, 0, 0);
        WMI_MarshalHeader(ipconfig_dhcp, 1, 1);
        AJ_WSL_WMI_PadPayload(ipconfig_dhcp);
        AJ_WSL_WMI_QueueWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IPCONFIG), AJ_WSL_HTC_DATA_ENDPOINT1, ipconfig_dhcp);
        status = AJ_WSL_WMI_WaitForWorkItem(0, AJ_WSL_WORKITEM(AJ_WSL_WORKITEM_SOCKET, WSL_SOCK_IPCONFIG), &item);
        AJ_WSL_WMI_FreeWorkItem(item);
        AJ_Sleep(100);
        break;
    }
    return status;
}