struct AdminTestFramework* AdminTestFramework_setUp(int argc, char** argv, char* testName)
{
if (argc > 2 && !strcmp(testName, argv[1]) && !strcmp("angel", argv[2])) {
exit(AngelInit_main(argc-1, &argv[1]));
}
struct Allocator* alloc = MallocAllocator_new(1<<20);
struct Writer* logwriter = FileWriter_new(stdout, alloc);
Assert_true(logwriter);
struct Log* logger = WriterLog_new(logwriter, alloc);
struct EventBase* eventBase = EventBase_new(alloc);
struct Random* rand = Random_new(alloc, logger, NULL);
char asClientPipeName[32] = {0};
Random_base32(rand, (uint8_t*)asClientPipeName, 31);
struct Pipe* asClientPipe = Pipe_named(asClientPipeName, eventBase, NULL, alloc);
asClientPipe->logger = logger;
char asCorePipeName[32] = {0};
Random_base32(rand, (uint8_t*)asCorePipeName, 31);
struct Pipe* asCorePipe = Pipe_named(asCorePipeName, eventBase, NULL, alloc);
asCorePipe->logger = logger;
struct Interface* asCoreIface = FramingInterface_new(65535, &asCorePipe->iface, alloc);
spawnAngel(testName, asClientPipeName, eventBase, alloc);
Log_info(logger, "Initializing Angel");
initAngel(asClientPipe, asCoreIface, (char*)asCorePipe->name, eventBase, logger, alloc, rand);
struct Sockaddr_storage addr;
Assert_true(!Sockaddr_parse("127.0.0.1", &addr));
Log_info(logger, "Binding UDP admin socket");
struct AddrInterface* udpAdmin =
UDPAddrInterface_new(eventBase, &addr.addr, alloc, NULL, logger);
String* password = String_new("abcd", alloc);
struct Admin* admin = Admin_new(udpAdmin, alloc, logger, eventBase, password);
// Now setup the client.
struct AdminClient* client =
AdminClient_new(udpAdmin->addr, password, eventBase, logger, alloc);
Assert_true(client);
return Allocator_clone(alloc, (&(struct AdminTestFramework) {
.admin = admin,
.client = client,
.alloc = alloc,
.eventBase = eventBase,
.logger = logger,
.addr = Sockaddr_clone(udpAdmin->addr, alloc),
.angelInterface = asCoreIface
}));
/** @return a string representing the address and port to connect to. */
static String* initAngel(int fromAngel,
int toAngel,
int corePipes[2][2],
struct PipeInterface** piOut,
struct EventBase* eventBase,
struct Log* logger,
struct Allocator* alloc,
struct Random* rand)
{
#define TO_CORE (corePipes[0][1])
#define FROM_CORE (corePipes[1][0])
#define TO_ANGEL_AS_CORE (corePipes[1][1])
#define FROM_ANGEL_AS_CORE (corePipes[0][0])
Dict core = Dict_CONST(
String_CONST("fromCore"), Int_OBJ(FROM_CORE), Dict_CONST(
String_CONST("toCore"), Int_OBJ(TO_CORE), NULL
));
Dict admin = Dict_CONST(
String_CONST("bind"), String_OBJ(String_CONST("127.0.0.1")), Dict_CONST(
String_CONST("core"), Dict_OBJ(&core), Dict_CONST(
String_CONST("pass"), String_OBJ(String_CONST("abcd")), NULL
)));
Dict message = Dict_CONST(
String_CONST("admin"), Dict_OBJ(&admin), NULL
);
struct Allocator* tempAlloc;
BufferAllocator_STACK(tempAlloc, 1024);
#define BUFFER_SZ 1023
uint8_t buff[BUFFER_SZ + 1] = {0};
struct Writer* w = ArrayWriter_new(buff, BUFFER_SZ, tempAlloc);
StandardBencSerializer_get()->serializeDictionary(w, &message);
Log_info(logger, "Writing intial configuration to angel on [%d] config: [%s]", toAngel, buff);
write(toAngel, buff, w->bytesWritten(w));
// This is angel->core data, we can throw this away.
//Waiter_getData(buff, BUFFER_SZ, fromAngel, eventBase, NULL);
//Log_info(logger, "Init message from angel to core: [%s]", buff);
Bits_memset(buff, 0, BUFFER_SZ);
struct PipeInterface* pi =
PipeInterface_new(FROM_ANGEL_AS_CORE, TO_ANGEL_AS_CORE, eventBase, logger, alloc, rand);
*piOut = pi;
Log_info(logger, "PipeInterface [%p] is now ready.", (void*)pi);
// Make sure the angel sends data to the core.
InterfaceWaiter_waitForData(&pi->generic, eventBase, alloc, NULL);
// Send response on behalf of core.
char coreToAngelResponse[128] = " PADDING "
"\xff\xff\xff\xff"
"d"
"5:error" "4:none"
"e";
char* start = strchr(coreToAngelResponse, '\xff');
struct Message m = {
.bytes = (uint8_t*) start,
.length = strlen(start),
.padding = start - coreToAngelResponse
};
pi->generic.sendMessage(&m, &pi->generic);
// This is angel->client data, it will tell us which port was bound.
Waiter_getData(buff, BUFFER_SZ, fromAngel, eventBase, NULL);
printf("Response from angel to client: [%s]\n", buff);
struct Reader* reader = ArrayReader_new(buff, BUFFER_SZ, tempAlloc);
Dict configStore;
Dict* config = &configStore;
Assert_true(!StandardBencSerializer_get()->parseDictionary(reader, tempAlloc, config));
Dict* responseAdmin = Dict_getDict(config, String_CONST("admin"));
String* bind = Dict_getString(responseAdmin, String_CONST("bind"));
Assert_true(bind);
return String_clone(bind, alloc);
}
/**
* This spawns itself as the Angel process which spawns itself again as the core process.
* The "core process" pipes all of its inputs back to the originating process
*/
struct AdminTestFramework* AdminTestFramework_setUp(int argc, char** argv)
{
if (argc > 1 && !strcmp("angel", argv[1])) {
exit(AngelInit_main(argc, argv));
}
struct Allocator* alloc = CanaryAllocator_new(MallocAllocator_new(1<<20), NULL);
struct Writer* logwriter = FileWriter_new(stdout, alloc);
Assert_always(logwriter);
struct Log* logger = WriterLog_new(logwriter, alloc);
struct EventBase* eventBase = EventBase_new(alloc);
struct Random* rand = Random_new(alloc, NULL);
int fromAngel;
int toAngel;
int corePipes[2][2];
if (Pipe_createUniPipe(corePipes[0]) || Pipe_createUniPipe(corePipes[1])) {
Except_raise(NULL, -1, "Failed to create pipes [%s]", Errno_getString());
}
spawnAngel(&fromAngel, &toAngel);
struct PipeInterface* pi;
String* addrStr =
initAngel(fromAngel, toAngel, corePipes, &pi, eventBase, logger, alloc, rand);
Log_info(logger, "Angel initialized.");
String* password = String_new("abcd", alloc);
struct Admin* admin =
Admin_new(&pi->generic, alloc, logger, eventBase, password);
// Now setup the client.
struct sockaddr_storage addr;
int addrLen = sizeof(struct sockaddr_storage);
Bits_memset(&addr, 0, sizeof(struct sockaddr_storage));
Assert_true(!evutil_parse_sockaddr_port(addrStr->bytes, (struct sockaddr*) &addr, &addrLen));
struct AdminClient* client =
AdminClient_new((uint8_t*) &addr, addrLen, password, eventBase, logger, alloc);
Assert_always(client);
return alloc->clone(sizeof(struct AdminTestFramework), alloc, &(struct AdminTestFramework) {
.admin = admin,
.client = client,
.alloc = alloc,
.eventBase = eventBase,
.logger = logger,
.addr = alloc->clone(addrLen, alloc, &addr),
.addrLen = addrLen,
.angelInterface = &pi->generic
});
}
int main(int argc, char** argv)
{
#ifdef Log_KEYS
fprintf(stderr, "Log_LEVEL = KEYS, EXPECT TO SEE PRIVATE KEYS IN YOUR LOGS!\n");
#endif
if (argc < 2) {
// Fall through.
} else if (!CString_strcmp("angel", argv[1])) {
return AngelInit_main(argc, argv);
} else if (!CString_strcmp("core", argv[1])) {
return Core_main(argc, argv);
}
Assert_ifParanoid(argc > 0);
struct Except* eh = NULL;
// Allow it to allocate 8MB
struct Allocator* allocator = MallocAllocator_new(1<<23);
struct Random* rand = Random_new(allocator, NULL, eh);
struct EventBase* eventBase = EventBase_new(allocator);
if (argc == 2) {
// one argument
if ((CString_strcmp(argv[1], "--help") == 0) || (CString_strcmp(argv[1], "-h") == 0)) {
return usage(allocator, argv[0]);
} else if (CString_strcmp(argv[1], "--genconf") == 0) {
return genconf(rand);
} else if (CString_strcmp(argv[1], "--pidfile") == 0) {
// deprecated
fprintf(stderr, "'--pidfile' option is deprecated.\n");
return 0;
} else if (CString_strcmp(argv[1], "--reconf") == 0) {
// Performed after reading the configuration
} else if (CString_strcmp(argv[1], "--bench") == 0) {
return benchmark();
} else if ((CString_strcmp(argv[1], "--version") == 0)
|| (CString_strcmp(argv[1], "-v") == 0))
{
printf("Cjdns protocol version: %d\n", Version_CURRENT_PROTOCOL);
return 0;
} else if (CString_strcmp(argv[1], "--cleanconf") == 0) {
// Performed after reading configuration
} else if (CString_strcmp(argv[1], "--nobg") == 0) {
// Performed while reading configuration
} else {
fprintf(stderr, "%s: unrecognized option '%s'\n", argv[0], argv[1]);
fprintf(stderr, "Try `%s --help' for more information.\n", argv[0]);
return -1;
}
} else if (argc > 2) {
// more than one argument?
fprintf(stderr, "%s: too many arguments [%s]\n", argv[0], argv[1]);
fprintf(stderr, "Try `%s --help' for more information.\n", argv[0]);
// because of '--pidfile $filename'?
if (CString_strcmp(argv[1], "--pidfile") == 0)
{
fprintf(stderr, "\n'--pidfile' option is deprecated.\n");
}
return -1;
}
if (isatty(STDIN_FILENO)) {
// We were started from a terminal
// The chances an user wants to type in a configuration
// bij hand are pretty slim so we show him the usage
return usage(allocator, argv[0]);
} else {
// We assume stdin is a configuration file and that we should
// start routing
}
struct Reader* stdinReader = FileReader_new(stdin, allocator);
Dict config;
if (JsonBencSerializer_get()->parseDictionary(stdinReader, allocator, &config)) {
fprintf(stderr, "Failed to parse configuration.\n");
return -1;
}
if (argc == 2 && CString_strcmp(argv[1], "--cleanconf") == 0) {
struct Writer* stdoutWriter = FileWriter_new(stdout, allocator);
JsonBencSerializer_get()->serializeDictionary(stdoutWriter, &config);
printf("\n");
return 0;
}
int forceNoBackground = 0;
if (argc == 2 && CString_strcmp(argv[1], "--nobg") == 0) {
forceNoBackground = 1;
}
struct Writer* logWriter = FileWriter_new(stdout, allocator);
struct Log* logger = WriterLog_new(logWriter, allocator);
// --------------------- Get Admin --------------------- //
Dict* configAdmin = Dict_getDict(&config, String_CONST("admin"));
String* adminPass = Dict_getString(configAdmin, String_CONST("password"));
String* adminBind = Dict_getString(configAdmin, String_CONST("bind"));
if (!adminPass) {
adminPass = String_newBinary(NULL, 32, allocator);
Random_base32(rand, (uint8_t*) adminPass->bytes, 32);
adminPass->len = CString_strlen(adminPass->bytes);
}
if (!adminBind) {
Except_throw(eh, "You must specify admin.bind in the cjdroute.conf file.");
}
// --------------------- Welcome to cjdns ---------------------- //
char* archInfo = ArchInfo_describe(ArchInfo_detect(), allocator);
char* sysInfo = SysInfo_describe(SysInfo_detect(), allocator);
Log_info(logger, "Cjdns %s %s", archInfo, sysInfo);
// --------------------- Check for running instance --------------------- //
Log_info(logger, "Checking for running instance...");
checkRunningInstance(allocator, eventBase, adminBind, adminPass, logger, eh);
// --------------------- Setup Pipes to Angel --------------------- //
char angelPipeName[64] = "client-angel-";
Random_base32(rand, (uint8_t*)angelPipeName+13, 31);
Assert_ifParanoid(EventBase_eventCount(eventBase) == 0);
struct Pipe* angelPipe = Pipe_named(angelPipeName, eventBase, eh, allocator);
Assert_ifParanoid(EventBase_eventCount(eventBase) == 2);
angelPipe->logger = logger;
char* args[] = { "angel", angelPipeName, NULL };
// --------------------- Spawn Angel --------------------- //
String* privateKey = Dict_getString(&config, String_CONST("privateKey"));
char* corePath = Process_getPath(allocator);
if (!corePath) {
Except_throw(eh, "Can't find a usable cjdns core executable, "
"make sure it is in the same directory as cjdroute");
}
if (!privateKey) {
Except_throw(eh, "Need to specify privateKey.");
}
Log_info(logger, "Forking angel to background.");
Process_spawn(corePath, args, eventBase, allocator);
// --------------------- Get user for angel to setuid() ---------------------- //
String* securityUser = NULL;
List* securityConf = Dict_getList(&config, String_CONST("security"));
for (int i = 0; securityConf && i < List_size(securityConf); i++) {
securityUser = Dict_getString(List_getDict(securityConf, i), String_CONST("setuser"));
if (securityUser) {
int64_t* ea = Dict_getInt(List_getDict(securityConf, i), String_CONST("exemptAngel"));
if (ea && *ea) {
securityUser = NULL;
}
break;
}
}
// --------------------- Pre-Configure Angel ------------------------- //
Dict* preConf = Dict_new(allocator);
Dict* adminPreConf = Dict_new(allocator);
Dict_putDict(preConf, String_CONST("admin"), adminPreConf, allocator);
Dict_putString(adminPreConf, String_CONST("core"), String_new(corePath, allocator), allocator);
Dict_putString(preConf, String_CONST("privateKey"), privateKey, allocator);
Dict_putString(adminPreConf, String_CONST("bind"), adminBind, allocator);
Dict_putString(adminPreConf, String_CONST("pass"), adminPass, allocator);
if (securityUser) {
Dict_putString(adminPreConf, String_CONST("user"), securityUser, allocator);
}
Dict* logging = Dict_getDict(&config, String_CONST("logging"));
if (logging) {
Dict_putDict(preConf, String_CONST("logging"), logging, allocator);
}
struct Message* toAngelMsg = Message_new(0, 1024, allocator);
BencMessageWriter_write(preConf, toAngelMsg, eh);
Interface_sendMessage(&angelPipe->iface, toAngelMsg);
Log_debug(logger, "Sent [%d] bytes to angel process", toAngelMsg->length);
// --------------------- Get Response from Angel --------------------- //
struct Message* fromAngelMsg =
InterfaceWaiter_waitForData(&angelPipe->iface, eventBase, allocator, eh);
Dict* responseFromAngel = BencMessageReader_read(fromAngelMsg, allocator, eh);
// --------------------- Get Admin Addr/Port/Passwd --------------------- //
Dict* responseFromAngelAdmin = Dict_getDict(responseFromAngel, String_CONST("admin"));
adminBind = Dict_getString(responseFromAngelAdmin, String_CONST("bind"));
if (!adminBind) {
Except_throw(eh, "didn't get address and port back from angel");
}
struct Sockaddr_storage adminAddr;
if (Sockaddr_parse(adminBind->bytes, &adminAddr)) {
Except_throw(eh, "Unable to parse [%s] as an ip address port, eg: 127.0.0.1:11234",
adminBind->bytes);
}
// sanity check, Pipe_named() creates 2 events, see above.
Assert_ifParanoid(EventBase_eventCount(eventBase) == 2);
// --------------------- Configuration ------------------------- //
Configurator_config(&config,
&adminAddr.addr,
adminPass,
eventBase,
logger,
allocator);
// --------------------- noBackground ------------------------ //
int64_t* noBackground = Dict_getInt(&config, String_CONST("noBackground"));
if (forceNoBackground || (noBackground && *noBackground)) {
EventBase_beginLoop(eventBase);
}
//Allocator_free(allocator);
return 0;
}
