struct MsgCore_Promise* MsgCore_createQuery(struct MsgCore* core,
uint32_t timeoutMilliseconds,
struct Allocator* allocator)
{
struct MsgCore_pvt* mcp = Identity_check((struct MsgCore_pvt*) core);
if (!timeoutMilliseconds) {
timeoutMilliseconds = DEFAULT_TIMEOUT_MILLISECONDS;
}
struct Pinger_Ping* p = Pinger_newPing(
NULL, pingerOnResponse, pingerSendPing, timeoutMilliseconds, allocator, mcp->pinger);
struct MsgCore_Promise_pvt* out =
Allocator_calloc(p->pingAlloc, sizeof(struct MsgCore_Promise_pvt), 1);
Identity_set(out);
p->context = out;
out->pub.alloc = p->pingAlloc;
out->mcp = mcp;
out->ping = p;
return &out->pub;
}
// incoming message from network, pointing to the beginning of the switch header.
static uint8_t receiveMessage(struct Message* msg, struct Interface* iface)
{
struct SwitchPinger* ctx = Identity_check((struct SwitchPinger*) iface->receiverContext);
struct SwitchHeader* switchHeader = (struct SwitchHeader*) msg->bytes;
ctx->incomingLabel = Endian_bigEndianToHost64(switchHeader->label_be);
ctx->incomingVersion = 0;
Message_shift(msg, -SwitchHeader_SIZE, NULL);
uint32_t handle = Message_pop32(msg, NULL);
#ifdef Version_7_COMPAT
if (handle != 0xffffffff) {
Message_push32(msg, handle, NULL);
handle = 0xffffffff;
Assert_true(SwitchHeader_isV7Ctrl(switchHeader));
}
#endif
Assert_true(handle == 0xffffffff);
struct Control* ctrl = (struct Control*) msg->bytes;
if (ctrl->type_be == Control_PONG_be) {
Message_shift(msg, -Control_HEADER_SIZE, NULL);
ctx->error = Error_NONE;
if (msg->length >= Control_Pong_MIN_SIZE) {
struct Control_Ping* pongHeader = (struct Control_Ping*) msg->bytes;
ctx->incomingVersion = Endian_bigEndianToHost32(pongHeader->version_be);
if (pongHeader->magic != Control_Pong_MAGIC) {
Log_debug(ctx->logger, "dropped invalid switch pong");
return Error_INVALID;
}
Message_shift(msg, -Control_Pong_HEADER_SIZE, NULL);
} else {
Log_debug(ctx->logger, "got runt pong message, length: [%d]", msg->length);
return Error_INVALID;
}
} else if (ctrl->type_be == Control_KEYPONG_be) {
Message_shift(msg, -Control_HEADER_SIZE, NULL);
ctx->error = Error_NONE;
if (msg->length >= Control_KeyPong_HEADER_SIZE && msg->length <= Control_KeyPong_MAX_SIZE) {
struct Control_KeyPing* pongHeader = (struct Control_KeyPing*) msg->bytes;
ctx->incomingVersion = Endian_bigEndianToHost32(pongHeader->version_be);
if (pongHeader->magic != Control_KeyPong_MAGIC) {
Log_debug(ctx->logger, "dropped invalid switch key-pong");
return Error_INVALID;
}
Bits_memcpyConst(ctx->incomingKey, pongHeader->key, 32);
Message_shift(msg, -Control_KeyPong_HEADER_SIZE, NULL);
} else if (msg->length > Control_KeyPong_MAX_SIZE) {
Log_debug(ctx->logger, "got overlong key-pong message, length: [%d]", msg->length);
return Error_INVALID;
} else {
Log_debug(ctx->logger, "got runt key-pong message, length: [%d]", msg->length);
return Error_INVALID;
}
} else if (ctrl->type_be == Control_ERROR_be) {
Message_shift(msg, -Control_HEADER_SIZE, NULL);
Assert_true((uint8_t*)&ctrl->content.error.errorType_be == msg->bytes);
if (msg->length < (Control_Error_HEADER_SIZE + SwitchHeader_SIZE + Control_HEADER_SIZE)) {
Log_debug(ctx->logger, "runt error packet");
return Error_NONE;
}
ctx->error = Message_pop32(msg, NULL);
Message_push32(msg, 0, NULL);
Message_shift(msg, -(Control_Error_HEADER_SIZE + SwitchHeader_SIZE), NULL);
struct Control* origCtrl = (struct Control*) msg->bytes;
Log_debug(ctx->logger, "error [%s] was caused by our [%s]",
Error_strerror(ctx->error),
Control_typeString(origCtrl->type_be));
int shift;
if (origCtrl->type_be == Control_PING_be) {
shift = -(Control_HEADER_SIZE + Control_Ping_HEADER_SIZE);
} else if (origCtrl->type_be == Control_KEYPING_be) {
shift = -(Control_HEADER_SIZE + Control_KeyPing_HEADER_SIZE);
} else {
Assert_failure("problem in Ducttape.c");
}
if (msg->length < -shift) {
Log_debug(ctx->logger, "runt error packet");
}
Message_shift(msg, shift, NULL);
} else {
// If it gets here then Ducttape.c is failing.
Assert_true(false);
}
String* msgStr = &(String) { .bytes = (char*) msg->bytes, .len = msg->length };
Pinger_pongReceived(msgStr, ctx->pinger);
Bits_memset(ctx->incomingKey, 0, 32);
return Error_NONE;
}
static void onPingResponse(String* data, uint32_t milliseconds, void* vping)
{
struct Ping* p = Identity_check((struct Ping*) vping);
enum SwitchPinger_Result err = SwitchPinger_Result_OK;
uint64_t label = p->context->incomingLabel;
if (data) {
if (label != p->label) {
err = SwitchPinger_Result_LABEL_MISMATCH;
} else if ((p->data || data->len > 0) && !String_equals(data, p->data)) {
err = SwitchPinger_Result_WRONG_DATA;
} else if (p->context->error == Error_LOOP_ROUTE) {
err = SwitchPinger_Result_LOOP_ROUTE;
} else if (p->context->error) {
err = SwitchPinger_Result_ERROR_RESPONSE;
}
} else {
err = SwitchPinger_Result_TIMEOUT;
}
uint32_t version = p->context->incomingVersion;
struct SwitchPinger_Response* resp =
Allocator_calloc(p->pub.pingAlloc, sizeof(struct SwitchPinger_Response), 1);
resp->version = p->context->incomingVersion;
resp->res = err;
resp->label = label;
resp->data = data;
resp->milliseconds = milliseconds;
resp->version = version;
Bits_memcpyConst(resp->key, p->context->incomingKey, 32);
resp->ping = &p->pub;
p->onResponse(resp, p->pub.onResponseContext);
}
static void sendPing(String* data, void* sendPingContext)
{
struct Ping* p = Identity_check((struct Ping*) sendPingContext);
struct Message* msg = Message_new(0, data->len + 512, p->pub.pingAlloc);
while (((uintptr_t)msg->bytes - data->len) % 4) {
Message_push8(msg, 0, NULL);
}
msg->length = 0;
Message_push(msg, data->bytes, data->len, NULL);
Assert_true(!((uintptr_t)msg->bytes % 4) && "alignment fault");
if (p->pub.keyPing) {
Message_shift(msg, Control_KeyPing_HEADER_SIZE, NULL);
struct Control_KeyPing* keyPingHeader = (struct Control_KeyPing*) msg->bytes;
keyPingHeader->magic = Control_KeyPing_MAGIC;
keyPingHeader->version_be = Endian_hostToBigEndian32(Version_CURRENT_PROTOCOL);
Bits_memcpyConst(keyPingHeader->key, p->context->myAddr->key, 32);
} else {
Message_shift(msg, Control_Ping_HEADER_SIZE, NULL);
struct Control_Ping* pingHeader = (struct Control_Ping*) msg->bytes;
pingHeader->magic = Control_Ping_MAGIC;
pingHeader->version_be = Endian_hostToBigEndian32(Version_CURRENT_PROTOCOL);
}
Message_shift(msg, Control_HEADER_SIZE, NULL);
struct Control* ctrl = (struct Control*) msg->bytes;
ctrl->checksum_be = 0;
ctrl->type_be = (p->pub.keyPing) ? Control_KEYPING_be : Control_PING_be;
ctrl->checksum_be = Checksum_engine(msg->bytes, msg->length);
#ifdef Version_7_COMPAT
if (0) {
#endif
Message_push32(msg, 0xffffffff, NULL);
#ifdef Version_7_COMPAT
}
#endif
Message_shift(msg, SwitchHeader_SIZE, NULL);
struct SwitchHeader* switchHeader = (struct SwitchHeader*) msg->bytes;
switchHeader->label_be = Endian_hostToBigEndian64(p->label);
SwitchHeader_setVersion(switchHeader, SwitchHeader_CURRENT_VERSION);
SwitchHeader_setPenalty(switchHeader, 0);
SwitchHeader_setCongestion(switchHeader, 0);
#ifdef Version_7_COMPAT
// v7 detects ctrl packets by the bit which has been
// re-appropriated for suppression of errors.
switchHeader->congestAndSuppressErrors = 1;
SwitchHeader_setVersion(switchHeader, 0);
#endif
p->context->iface->sendMessage(msg, p->context->iface);
}
static String* RESULT_STRING_OK = String_CONST_SO("pong");
static String* RESULT_STRING_LABEL_MISMATCH = String_CONST_SO("diff_label");
static String* RESULT_STRING_WRONG_DATA = String_CONST_SO("diff_data");
static String* RESULT_STRING_ERROR_RESPONSE = String_CONST_SO("err_switch");
static String* RESULT_STRING_TIMEOUT = String_CONST_SO("timeout");
static String* RESULT_STRING_UNKNOWN = String_CONST_SO("err_unknown");
static String* RESULT_STRING_LOOP = String_CONST_SO("err_loop");
String* SwitchPinger_resultString(enum SwitchPinger_Result result)
{
switch (result) {
case SwitchPinger_Result_OK:
return RESULT_STRING_OK;
case SwitchPinger_Result_LABEL_MISMATCH:
return RESULT_STRING_LABEL_MISMATCH;
case SwitchPinger_Result_WRONG_DATA:
return RESULT_STRING_WRONG_DATA;
case SwitchPinger_Result_ERROR_RESPONSE:
return RESULT_STRING_ERROR_RESPONSE;
case SwitchPinger_Result_TIMEOUT:
return RESULT_STRING_TIMEOUT;
case SwitchPinger_Result_LOOP_ROUTE:
return RESULT_STRING_LOOP;
default:
return RESULT_STRING_UNKNOWN;
};
}
static int onPingFree(struct Allocator_OnFreeJob* job)
{
struct Ping* ping = Identity_check((struct Ping*)job->userData);
struct SwitchPinger* ctx = Identity_check(ping->context);
ctx->outstandingPings--;
Assert_true(ctx->outstandingPings >= 0);
return 0;
}
struct SwitchPinger_Ping* SwitchPinger_newPing(uint64_t label,
String* data,
uint32_t timeoutMilliseconds,
SwitchPinger_ResponseCallback onResponse,
struct Allocator* alloc,
struct SwitchPinger* ctx)
{
if (data && data->len > Control_Ping_MAX_SIZE) {
return NULL;
}
if (ctx->outstandingPings > ctx->maxConcurrentPings) {
Log_debug(ctx->logger, "Skipping switch ping because there are already [%d] outstanding",
ctx->outstandingPings);
return NULL;
}
struct Pinger_Ping* pp =
Pinger_newPing(data, onPingResponse, sendPing, timeoutMilliseconds, alloc, ctx->pinger);
struct Ping* ping = Allocator_clone(pp->pingAlloc, (&(struct Ping) {
.pub = {
.pingAlloc = pp->pingAlloc
},
.label = label,
.data = String_clone(data, pp->pingAlloc),
.context = ctx,
.onResponse = onResponse,
.pingerPing = pp
}));
