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mirror of https://github.com/SoftEtherVPN/SoftEtherVPN.git synced 2024-11-07 10:10:41 +03:00
SoftEtherVPN/src/Neo/Neo.c

363 lines
6.0 KiB
C

// SoftEther VPN Source Code - Developer Edition Master Branch
// Kernel Device Driver
// Neo.c
// Driver main program
#include <GlobalConst.h>
#define NEO_DEVICE_DRIVER
#include "Neo.h"
// Whether Win8
extern bool g_is_win8;
// Neo driver context
static NEO_CTX static_ctx;
NEO_CTX *ctx = &static_ctx;
// Read the packet data from the transmit packet queue
void NeoRead(void *buf)
{
NEO_QUEUE *q;
UINT num;
BOOL left;
// Validate arguments
if (buf == NULL)
{
return;
}
// Copy the packets one by one from the queue
num = 0;
left = TRUE;
NeoLockPacketQueue();
{
while (TRUE)
{
if (num >= NEO_MAX_PACKET_EXCHANGE)
{
if (ctx->PacketQueue == NULL)
{
left = FALSE;
}
break;
}
q = NeoGetNextQueue();
if (q == NULL)
{
left = FALSE;
break;
}
NEO_SIZE_OF_PACKET(buf, num) = q->Size;
NeoCopy(NEO_ADDR_OF_PACKET(buf, num), q->Buf, q->Size);
num++;
NeoFreeQueue(q);
}
}
NeoUnlockPacketQueue();
NEO_NUM_PACKET(buf) = num;
NEO_LEFT_FLAG(buf) = left;
if (left == FALSE)
{
NeoReset(ctx->Event);
}
else
{
NeoSet(ctx->Event);
}
return;
}
// Process the received packet
void NeoWrite(void *buf)
{
UINT num, i, size;
void *packet_buf;
// Validate arguments
if (buf == NULL)
{
return;
}
// Number of packets
num = NEO_NUM_PACKET(buf);
if (num > NEO_MAX_PACKET_EXCHANGE)
{
// Number of packets is too many
return;
}
if (num == 0)
{
// No packet
return;
}
if (ctx->Halting != FALSE)
{
// Halting
return;
}
if (ctx->Opened == FALSE)
{
// Not connected
return;
}
for (i = 0;i < num;i++)
{
PACKET_BUFFER *p = ctx->PacketBuffer[i];
size = NEO_SIZE_OF_PACKET(buf, i);
if (size > NEO_MAX_PACKET_SIZE)
{
size = NEO_MAX_PACKET_SIZE;
}
if (size < NEO_PACKET_HEADER_SIZE)
{
size = NEO_PACKET_HEADER_SIZE;
}
packet_buf = NEO_ADDR_OF_PACKET(buf, i);
// Buffer copy
NeoCopy(p->Buf, packet_buf, size);
if (g_is_win8 == false)
{
// Adjust the buffer size
NdisAdjustBufferLength(p->NdisBuffer, size);
// Set the packet information
NDIS_SET_PACKET_STATUS(p->NdisPacket, NDIS_STATUS_RESOURCES);
NDIS_SET_PACKET_HEADER_SIZE(p->NdisPacket, NEO_PACKET_HEADER_SIZE);
}
else
{
NdisMEthIndicateReceive(ctx->NdisMiniport, ctx,
p->Buf, NEO_PACKET_HEADER_SIZE,
((UCHAR *)p->Buf) + NEO_PACKET_HEADER_SIZE, size - NEO_PACKET_HEADER_SIZE,
size - NEO_PACKET_HEADER_SIZE);
NdisMEthIndicateReceiveComplete(ctx->NdisMiniport);
}
}
// Notify that packets have received
ctx->Status.NumPacketRecv += num;
if (g_is_win8 == false)
{
NdisMIndicateReceivePacket(ctx->NdisMiniport, ctx->PacketBufferArray, num);
}
}
// Get the number of queue items
UINT NeoGetNumQueue()
{
return ctx->NumPacketQueue;
}
// Insert the queue
void NeoInsertQueue(void *buf, UINT size)
{
NEO_QUEUE *p;
// Validate arguments
if (buf == NULL || size == 0)
{
return;
}
// Prevent the packet accumulation in large quantities in the queue
if (ctx->NumPacketQueue > NEO_MAX_PACKET_QUEUED)
{
NeoFree(buf);
return;
}
// Create a queue
p = NeoMalloc(sizeof(NEO_QUEUE));
p->Next = NULL;
p->Size = size;
p->Buf = buf;
// Append to the queue
if (ctx->PacketQueue == NULL)
{
ctx->PacketQueue = p;
}
else
{
NEO_QUEUE *q = ctx->Tail;
q->Next = p;
}
ctx->Tail = p;
ctx->NumPacketQueue++;
}
// Get the next queued item
NEO_QUEUE *NeoGetNextQueue()
{
NEO_QUEUE *q;
if (ctx->PacketQueue == NULL)
{
// No item queued
return NULL;
}
// Get the next queued item
q = ctx->PacketQueue;
ctx->PacketQueue = ctx->PacketQueue->Next;
q->Next = NULL;
ctx->NumPacketQueue--;
if (ctx->PacketQueue == NULL)
{
ctx->Tail = NULL;
}
return q;
}
// Release the buffer queue
void NeoFreeQueue(NEO_QUEUE *q)
{
// Validate arguments
if (q == NULL)
{
return;
}
NeoFree(q->Buf);
NeoFree(q);
}
// Lock the packet queue
void NeoLockPacketQueue()
{
NeoLock(ctx->PacketQueueLock);
}
// Unlock the packet queue
void NeoUnlockPacketQueue()
{
NeoUnlock(ctx->PacketQueueLock);
}
// Initialize the packet queue
void NeoInitPacketQueue()
{
// Create a lock
ctx->PacketQueueLock = NeoNewLock();
// Initialize the packet queue
ctx->PacketQueue = NULL;
ctx->NumPacketQueue = 0;
ctx->Tail = NULL;
}
// Delete all the packets from the packet queue
void NeoClearPacketQueue()
{
// Release the memory of the packet queue
NeoLock(ctx->PacketQueueLock);
{
NEO_QUEUE *q = ctx->PacketQueue;
NEO_QUEUE *qn;
while (q != NULL)
{
qn = q->Next;
NeoFree(q->Buf);
NeoFree(q);
q = qn;
}
ctx->PacketQueue = NULL;
ctx->Tail = NULL;
ctx->NumPacketQueue = 0;
}
NeoUnlock(ctx->PacketQueueLock);
}
// Release the packet queue
void NeoFreePacketQueue()
{
// Delete all packets
NeoClearPacketQueue();
// Delete the lock
NeoFreeLock(ctx->PacketQueueLock);
ctx->PacketQueueLock = NULL;
}
// Start the adapter
void NeoStartAdapter()
{
// Initialize the packet queue
NeoInitPacketQueue();
}
// Stop the adapter
void NeoStopAdapter()
{
// Delete the packet queue
NeoFreePacketQueue();
}
// Initialization
BOOL NeoInit()
{
// Initialize the context
NeoZero(ctx, sizeof(NEO_CTX));
// Initialize the status information
NeoNewStatus(&ctx->Status);
return TRUE;
}
// Shutdown
void NeoShutdown()
{
if (ctx == NULL)
{
// Uninitialized
return;
}
// Release the status information
NeoFreeStatus(&ctx->Status);
NeoZero(ctx, sizeof(NEO_CTX));
}
// Create a status information
void NeoNewStatus(NEO_STATUS *s)
{
// Validate arguments
if (s == NULL)
{
return;
}
// Memory initialization
NeoZero(s, sizeof(NEO_STATUS));
}
// Release the status information
void NeoFreeStatus(NEO_STATUS *s)
{
// Validate arguments
if (s == NULL)
{
return;
}
// Memory initialization
NeoZero(s, sizeof(NEO_STATUS));
}