reactos/modules/rostests/drivers/tcpip/tcp_info.c

584 lines
19 KiB
C

/*
* PROJECT: ReactOS kernel-mode tests
* LICENSE: GPLv2+ - See COPYING in the top level directory
* PURPOSE: Tests for IOCTL_TCP_QUERY_INFORMATION_EX
* PROGRAMMER: Jérôme Gardou <jerome.gardou@reactos.org>
*/
#include <apitest.h>
#include <stdio.h>
#include <winioctl.h>
#include <tcpioctl.h>
#include <tdiinfo.h>
#include <iptypes.h>
#include <winsock.h>
/* FIXME */
#define AT_MIB_ADDRXLAT_INFO_ID 1
#define AT_MIB_ADDRXLAT_ENTRY_ID 0x101
/* Route info */
typedef struct IPRouteEntry {
unsigned long ire_dest;
unsigned long ire_index;
unsigned long ire_metric1;
unsigned long ire_metric2;
unsigned long ire_metric3;
unsigned long ire_metric4;
unsigned long ire_nexthop;
unsigned long ire_type;
unsigned long ire_proto;
unsigned long ire_age;
unsigned long ire_mask;
unsigned long ire_metric5;
unsigned long ire_context;
} IPRouteEntry;
/* Present in headers for Vista+, but there in WinXP/2k3 ntdll */
NTSYSAPI
PSTR
NTAPI
RtlIpv4AddressToStringA(
_In_ const struct in_addr *Addr,
_Out_writes_(16) PSTR S);
static HANDLE TcpFileHandle;
static ULONG IndentationLevel = 0;
static
char*
dbg_print_physaddr(const unsigned char* addr, unsigned long addr_len)
{
static char buffer[24];
char* dest = buffer;
*dest = '\0';
while (addr_len--)
{
dest += sprintf(dest, "%02x", *addr);
addr++;
if (addr_len)
*dest++ = ':';
}
return buffer;
}
static
int
__cdecl
indent_printf(const char* format, ...)
{
ULONG Indent = IndentationLevel;
int ret;
va_list args;
while(Indent--)
printf("\t");
va_start(args, format);
ret = vprintf(format, args);
va_end(args);
ret += IndentationLevel;
return ret;
}
static
void
test_IF_MIB_STATS(
TDIEntityID Id,
ULONG EntityType)
{
IFEntry* IfEntry;
TCP_REQUEST_QUERY_INFORMATION_EX Request;
ULONG BufferSize = sizeof(IFEntry) + MAX_ADAPTER_DESCRIPTION_LENGTH + 1;
BOOL Result;
/* Not valid for other entity types */
if (EntityType != IF_MIB)
return;
IfEntry = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, BufferSize);
ok(IfEntry != NULL, "\n");
ZeroMemory(&Request, sizeof(Request));
Request.ID.toi_entity = Id;
Request.ID.toi_class = INFO_CLASS_PROTOCOL;
Request.ID.toi_type = INFO_TYPE_PROVIDER;
Request.ID.toi_id = IF_MIB_STATS_ID;
Result = DeviceIoControl(
TcpFileHandle,
IOCTL_TCP_QUERY_INFORMATION_EX,
&Request,
sizeof(Request),
IfEntry,
BufferSize,
&BufferSize,
NULL);
ok(Result, "DeviceIoControl failed.\n");
/* Dump it */
indent_printf("IF_MIB Statistics:\n");
IndentationLevel++;
indent_printf("if_index: %lu\n", IfEntry->if_index);
indent_printf("if_type: %lu\n", IfEntry->if_type);
indent_printf("if_mtu: %lu\n", IfEntry->if_mtu);
indent_printf("if_speed: %lu\n", IfEntry->if_speed);
indent_printf("if_physaddr: %s\n", dbg_print_physaddr(IfEntry->if_physaddr, IfEntry->if_physaddrlen));
indent_printf("if_adminstatus: %lu\n", IfEntry->if_adminstatus);
indent_printf("if_operstatus: %lu\n", IfEntry->if_operstatus);
indent_printf("if_lastchange: %lu\n", IfEntry->if_lastchange);
indent_printf("if_inoctets: %lu\n", IfEntry->if_inoctets);
indent_printf("if_inucastpkts: %lu\n", IfEntry->if_inucastpkts);
indent_printf("if_innucastpkts: %lu\n", IfEntry->if_innucastpkts);
indent_printf("if_indiscards: %lu\n", IfEntry->if_indiscards);
indent_printf("if_inerrors: %lu\n", IfEntry->if_inerrors);
indent_printf("if_inunknownprotos: %lu\n", IfEntry->if_inunknownprotos);
indent_printf("if_outoctets: %lu\n", IfEntry->if_outoctets);
indent_printf("if_outucastpkts: %lu\n", IfEntry->if_outucastpkts);
indent_printf("if_outnucastpkts: %lu\n", IfEntry->if_outnucastpkts);
indent_printf("if_outdiscards: %lu\n", IfEntry->if_outdiscards);
indent_printf("if_outerrors: %lu\n", IfEntry->if_outerrors);
indent_printf("if_outqlen: %lu\n", IfEntry->if_outqlen);
indent_printf("if_descr: %*s\n", IfEntry->if_descrlen, IfEntry->if_descr);
IndentationLevel--;
HeapFree(GetProcessHeap(), 0, IfEntry);
}
static
void
test_IP_MIB_STATS(
TDIEntityID Id,
ULONG EntityType)
{
IPSNMPInfo IpSnmpInfo;
TCP_REQUEST_QUERY_INFORMATION_EX Request;
ULONG BufferSize = 0;
BOOL Result;
/* Not valid for other entity types */
if (EntityType != CL_NL_IP)
return;
ZeroMemory(&IpSnmpInfo, sizeof(IpSnmpInfo));
ZeroMemory(&Request, sizeof(Request));
Request.ID.toi_entity = Id;
Request.ID.toi_class = INFO_CLASS_PROTOCOL;
Request.ID.toi_type = INFO_TYPE_PROVIDER;
Request.ID.toi_id = IP_MIB_STATS_ID;
Result = DeviceIoControl(
TcpFileHandle,
IOCTL_TCP_QUERY_INFORMATION_EX,
&Request,
sizeof(Request),
&IpSnmpInfo,
sizeof(IpSnmpInfo),
&BufferSize,
NULL);
ok(Result, "DeviceIoControl failed.\n");
/* Dump it */
indent_printf("IP_MIB Statistics:\n");
IndentationLevel++;
indent_printf("ipsi_forwarding: %lu\n", IpSnmpInfo.ipsi_forwarding);
indent_printf("ipsi_defaultttl: %lu\n", IpSnmpInfo.ipsi_defaultttl);
indent_printf("ipsi_inreceives: %lu\n", IpSnmpInfo.ipsi_inreceives);
indent_printf("ipsi_inhdrerrors: %lu\n", IpSnmpInfo.ipsi_inhdrerrors);
indent_printf("ipsi_inaddrerrors: %lu\n", IpSnmpInfo.ipsi_inaddrerrors);
indent_printf("ipsi_forwdatagrams: %lu\n", IpSnmpInfo.ipsi_forwdatagrams);
indent_printf("ipsi_inunknownprotos: %lu\n", IpSnmpInfo.ipsi_inunknownprotos);
indent_printf("ipsi_indiscards: %lu\n", IpSnmpInfo.ipsi_indiscards);
indent_printf("ipsi_indelivers: %lu\n", IpSnmpInfo.ipsi_indelivers);
indent_printf("ipsi_outrequests: %lu\n", IpSnmpInfo.ipsi_outrequests);
indent_printf("ipsi_routingdiscards: %lu\n", IpSnmpInfo.ipsi_routingdiscards);
indent_printf("ipsi_outdiscards: %lu\n", IpSnmpInfo.ipsi_outdiscards);
indent_printf("ipsi_outnoroutes: %lu\n", IpSnmpInfo.ipsi_outnoroutes);
indent_printf("ipsi_reasmtimeout: %lu\n", IpSnmpInfo.ipsi_reasmtimeout);
indent_printf("ipsi_reasmreqds: %lu\n", IpSnmpInfo.ipsi_reasmreqds);
indent_printf("ipsi_reasmoks: %lu\n", IpSnmpInfo.ipsi_reasmoks);
indent_printf("ipsi_reasmfails: %lu\n", IpSnmpInfo.ipsi_reasmfails);
indent_printf("ipsi_fragoks: %lu\n", IpSnmpInfo.ipsi_fragoks);
indent_printf("ipsi_fragfails: %lu\n", IpSnmpInfo.ipsi_fragfails);
indent_printf("ipsi_fragcreates: %lu\n", IpSnmpInfo.ipsi_fragcreates);
indent_printf("ipsi_numif: %lu\n", IpSnmpInfo.ipsi_numif);
indent_printf("ipsi_numaddr: %lu\n", IpSnmpInfo.ipsi_numaddr);
indent_printf("ipsi_numroutes: %lu\n", IpSnmpInfo.ipsi_numroutes);
if (IpSnmpInfo.ipsi_numaddr != 0)
{
IPAddrEntry* AddrEntries;
ULONG i;
AddrEntries = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, IpSnmpInfo.ipsi_numaddr * sizeof(AddrEntries[0]));
ok(AddrEntries != NULL, "\n");
ZeroMemory(&Request, sizeof(Request));
Request.ID.toi_entity = Id;
Request.ID.toi_class = INFO_CLASS_PROTOCOL;
Request.ID.toi_type = INFO_TYPE_PROVIDER;
Request.ID.toi_id = IP_MIB_ADDRTABLE_ENTRY_ID;
Result = DeviceIoControl(
TcpFileHandle,
IOCTL_TCP_QUERY_INFORMATION_EX,
&Request,
sizeof(Request),
AddrEntries,
IpSnmpInfo.ipsi_numaddr * sizeof(AddrEntries[0]),
&BufferSize,
NULL);
ok(Result, "DeviceIoControl failed.\n");
ok_long(BufferSize, IpSnmpInfo.ipsi_numaddr * sizeof(AddrEntries[0]));
for(i = 0; i < IpSnmpInfo.ipsi_numaddr; i++)
{
CHAR AddressString[16];
struct in_addr Addr;
Addr.S_un.S_addr = AddrEntries[i].iae_addr;
RtlIpv4AddressToStringA(&Addr, AddressString);
indent_printf("Address %lu: %s\n", i, AddressString);
IndentationLevel++;
indent_printf("iae_addr: %lx\n", AddrEntries[i].iae_addr);
indent_printf("iae_index: %lu\n", AddrEntries[i].iae_index);
Addr.S_un.S_addr = AddrEntries[i].iae_mask;
RtlIpv4AddressToStringA(&Addr, AddressString);
indent_printf("iae_mask: %lx (%s)\n", AddrEntries[i].iae_mask, AddressString);
indent_printf("iae_bcastaddr: %lu\n", AddrEntries[i].iae_bcastaddr);
indent_printf("iae_reasmsize: %lu\n", AddrEntries[i].iae_reasmsize);
indent_printf("iae_context: %u\n", AddrEntries[i].iae_context);
{
IPInterfaceInfo* InterfaceInfo;
/* Get the interface info */
BufferSize = sizeof(IPInterfaceInfo) + MAX_PHYSADDR_SIZE;
InterfaceInfo = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, BufferSize);
ok(InterfaceInfo != NULL, "\n");
Request.ID.toi_id = IP_INTFC_INFO_ID;
Request.Context[0] = AddrEntries[i].iae_addr;
Result = DeviceIoControl(
TcpFileHandle,
IOCTL_TCP_QUERY_INFORMATION_EX,
&Request,
sizeof(Request),
InterfaceInfo,
BufferSize,
&BufferSize,
NULL);
ok(Result, "DeviceIoControl failed.\n");
indent_printf("Interface info:\n");
IndentationLevel++;
indent_printf("iii_flags: %lu\n", InterfaceInfo->iii_flags);
indent_printf("iii_mtu : %lu\n", InterfaceInfo->iii_mtu);
indent_printf("iii_speed: %lu\n", InterfaceInfo->iii_speed);
indent_printf("iii_physaddr: %s\n", dbg_print_physaddr(InterfaceInfo->iii_addr, InterfaceInfo->iii_addrlength));
IndentationLevel--;
}
IndentationLevel--;
}
HeapFree(GetProcessHeap(), 0, AddrEntries);
}
/* See for the routes */
if (IpSnmpInfo.ipsi_numroutes)
{
IPRouteEntry* RouteEntries;
ULONG i;
RouteEntries = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, IpSnmpInfo.ipsi_numroutes * sizeof(RouteEntries[0]));
ok(RouteEntries != NULL, "\n");
ZeroMemory(&Request, sizeof(Request));
Request.ID.toi_entity = Id;
Request.ID.toi_class = INFO_CLASS_PROTOCOL;
Request.ID.toi_type = INFO_TYPE_PROVIDER;
Request.ID.toi_id = IP_MIB_ARPTABLE_ENTRY_ID;
Result = DeviceIoControl(
TcpFileHandle,
IOCTL_TCP_QUERY_INFORMATION_EX,
&Request,
sizeof(Request),
RouteEntries,
IpSnmpInfo.ipsi_numroutes * sizeof(RouteEntries[0]),
&BufferSize,
NULL);
ok(Result, "DeviceIoControl failed.\n");
ok_long(BufferSize, IpSnmpInfo.ipsi_numroutes * sizeof(RouteEntries[0]));
for (i = 0; i < IpSnmpInfo.ipsi_numroutes; i++)
{
CHAR AddressString[16];
struct in_addr Addr;
Addr.S_un.S_addr = RouteEntries[i].ire_dest;
RtlIpv4AddressToStringA(&Addr, AddressString);
indent_printf("Route %lu:\n", i);
IndentationLevel++;
indent_printf("ire_dest: %s (%lx)\n", AddressString, RouteEntries[i].ire_dest);
indent_printf("ire_index: %lu\n", RouteEntries[i].ire_index);
indent_printf("ire_metric1: %#lx\n", RouteEntries[i].ire_metric1);
indent_printf("ire_metric2: %#lx\n", RouteEntries[i].ire_metric2);
indent_printf("ire_metric3: %#lx\n", RouteEntries[i].ire_metric3);
indent_printf("ire_metric4: %#lx\n", RouteEntries[i].ire_metric4);
Addr.S_un.S_addr = RouteEntries[i].ire_nexthop;
RtlIpv4AddressToStringA(&Addr, AddressString);
indent_printf("ire_nexthop: %s (%lx)\n", AddressString, RouteEntries[i].ire_nexthop);
indent_printf("ire_type: %lu\n", RouteEntries[i].ire_type);
indent_printf("ire_proto: %lu\n", RouteEntries[i].ire_proto);
indent_printf("ire_age: %lu\n", RouteEntries[i].ire_age);
Addr.S_un.S_addr = RouteEntries[i].ire_mask;
RtlIpv4AddressToStringA(&Addr, AddressString);
indent_printf("ire_mask: %s (%lx)\n", AddressString, RouteEntries[i].ire_mask);
indent_printf("ire_metric5: %lx\n", RouteEntries[i].ire_metric5);
indent_printf("ire_context: %lx\n", RouteEntries[i].ire_context);
IndentationLevel--;
}
}
IndentationLevel--;
}
typedef struct ARPInfo
{
unsigned long ai_numroutes;
unsigned long ai_unknown;
} ARPInfo;
typedef struct ARPEntry
{
unsigned long ae_index;
unsigned long ae_physaddrlen;
unsigned char ae_physaddr[MAX_PHYSADDR_SIZE];
unsigned long ae_address;
unsigned long ae_unknown;
} ARPEntry;
static
void
test_AT_ARP_STATS(
TDIEntityID Id,
ULONG EntityType)
{
ARPInfo ArpInfo;
TCP_REQUEST_QUERY_INFORMATION_EX Request;
ULONG BufferSize = 0;
BOOL Result;
/* Not valid for other entity types */
if (EntityType != AT_ARP)
return;
ZeroMemory(&Request, sizeof(Request));
Request.ID.toi_entity = Id;
Request.ID.toi_class = INFO_CLASS_PROTOCOL;
Request.ID.toi_type = INFO_TYPE_PROVIDER;
Request.ID.toi_id = AT_MIB_ADDRXLAT_INFO_ID;
Result = DeviceIoControl(
TcpFileHandle,
IOCTL_TCP_QUERY_INFORMATION_EX,
&Request,
sizeof(Request),
&ArpInfo,
sizeof(ArpInfo),
&BufferSize,
NULL);
ok(Result, "DeviceIoControl failed.\n");
ok_long(BufferSize, sizeof(ArpInfo));
indent_printf("ARP Info:\n");
IndentationLevel++;
indent_printf("ai_numroutes: %lu\n", ArpInfo.ai_numroutes);
indent_printf("ai_unknown: %lx\n", ArpInfo.ai_unknown);
if (ArpInfo.ai_numroutes)
{
ARPEntry* ArpEntries;
ULONG i;
Request.ID.toi_id = AT_MIB_ADDRXLAT_ENTRY_ID;
ArpEntries = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, ArpInfo.ai_numroutes * sizeof(ArpEntries[0]));
ok(ArpEntries != NULL, "\n");
Result = DeviceIoControl(
TcpFileHandle,
IOCTL_TCP_QUERY_INFORMATION_EX,
&Request,
sizeof(Request),
ArpEntries,
ArpInfo.ai_numroutes * sizeof(ArpEntries[0]),
&BufferSize,
NULL);
ok(Result, "DeviceIoControl failed.\n");
ok_long(BufferSize, ArpInfo.ai_numroutes * sizeof(ArpEntries[0]));
for (i = 0; i < ArpInfo.ai_numroutes; i++)
{
CHAR AddressString[16];
struct in_addr Addr;
Addr.S_un.S_addr = ArpEntries[i].ae_address;
RtlIpv4AddressToStringA(&Addr, AddressString);
indent_printf("ARP Entry %lu:\n", i);
IndentationLevel++;
indent_printf("ae_index: %lu\n", ArpEntries[i].ae_index);
indent_printf("ae_physaddr: %s\n", dbg_print_physaddr(ArpEntries[i].ae_physaddr, ArpEntries[i].ae_physaddrlen));
indent_printf("ae_address: %lx (%s)\n", ArpEntries[i].ae_address, AddressString);
indent_printf("ae_unknown: %lu.\n", ArpEntries[i].ae_unknown);
IndentationLevel--;
}
HeapFree(GetProcessHeap(), 0, ArpEntries);
}
IndentationLevel--;
}
START_TEST(tcp_info)
{
TDIEntityID* Entities;
DWORD BufferSize;
BOOL Result;
ULONG i, EntityCount;
TCP_REQUEST_QUERY_INFORMATION_EX Request;
/* Open a control channel file for TCP */
TcpFileHandle = CreateFileW(
L"\\\\.\\Tcp",
FILE_READ_DATA | FILE_WRITE_DATA,
FILE_SHARE_READ | FILE_SHARE_WRITE,
NULL,
OPEN_EXISTING,
0,
NULL);
ok(TcpFileHandle != INVALID_HANDLE_VALUE, "CreateFile failed, GLE %lu\n", GetLastError());
/* Try the IOCTL */
BufferSize = 0;
Result = DeviceIoControl(
TcpFileHandle,
IOCTL_TCP_QUERY_INFORMATION_EX,
NULL,
0,
NULL,
0,
&BufferSize,
NULL);
ok(!Result, "DeviceIoControl succeeded.\n");
ok_long(GetLastError(), ERROR_INVALID_PARAMETER);
ok_long(BufferSize, 0);
ZeroMemory(&Request, sizeof(Request));
Request.ID.toi_entity.tei_entity = GENERIC_ENTITY;
Request.ID.toi_entity.tei_instance = 0;
Request.ID.toi_class = INFO_CLASS_GENERIC;
Request.ID.toi_type = INFO_TYPE_PROVIDER;
Request.ID.toi_id = ENTITY_LIST_ID;
BufferSize = 0;
Result = DeviceIoControl(
TcpFileHandle,
IOCTL_TCP_QUERY_INFORMATION_EX,
&Request,
sizeof(Request),
NULL,
0,
&BufferSize,
NULL);
ok(!Result, "DeviceIoControl succeeded.\n");
ok_long(GetLastError(), ERROR_INVALID_PARAMETER);
ok_long(BufferSize, 0);
BufferSize = 4 * sizeof(Entities[0]);
Entities = HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, BufferSize);
ok(Entities != NULL, "\n");
while (TRUE)
{
Result = DeviceIoControl(
TcpFileHandle,
IOCTL_TCP_QUERY_INFORMATION_EX,
&Request,
sizeof(Request),
Entities,
BufferSize,
&BufferSize,
NULL);
if (Result)
break;
if (GetLastError() != ERROR_INSUFFICIENT_BUFFER)
break;
BufferSize *= 2;
Entities = HeapReAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, Entities, BufferSize);
ok(Entities != NULL, "\n");
}
ok(Result, "DeviceIoControl failed!\n");
EntityCount = BufferSize / sizeof(Entities[0]);
trace("Got %lu entities.\n", EntityCount);
for (i = 0; i < EntityCount; i++)
{
ULONG EntityType;
/* Get the type */
Request.ID.toi_entity = Entities[i];
Request.ID.toi_class = INFO_CLASS_GENERIC;
Request.ID.toi_type = INFO_TYPE_PROVIDER;
Request.ID.toi_id = ENTITY_TYPE_ID;
Result = DeviceIoControl(
TcpFileHandle,
IOCTL_TCP_QUERY_INFORMATION_EX,
&Request,
sizeof(Request),
&EntityType,
sizeof(EntityType),
&BufferSize,
NULL);
ok(Result, "DeviceIoControl failed.\n");
printf("Entity %lu: %#lx, %#lx, type %#lx\n", i, Entities[i].tei_entity, Entities[i].tei_instance, EntityType);
test_IF_MIB_STATS(Entities[i], EntityType);
test_IP_MIB_STATS(Entities[i], EntityType);
test_AT_ARP_STATS(Entities[i], EntityType);
}
HeapFree(GetProcessHeap(), 0, Entities);
CloseHandle(TcpFileHandle);
}