X-Git-Url: http://git.xonotic.org/?a=blobdiff_plain;f=crypto.c;h=05d763d6cdc673f82603f4639549ccbe5f8ede87;hb=7e8a101c81015e0bdab9fd78704f38f39d5a8ffe;hp=a7bbafbc0f648d8343db57bc736b88c9a964d5dd;hpb=31fb67a67a5b78635cd738ab9e620f303bc41549;p=xonotic%2Fdarkplaces.git diff --git a/crypto.c b/crypto.c index a7bbafbc..05d763d6 100644 --- a/crypto.c +++ b/crypto.c @@ -1,4 +1,3 @@ -// TODO key loading, generating, saving #include "quakedef.h" #include "crypto.h" #include "common.h" @@ -7,19 +6,22 @@ #include "hmac.h" #include "libcurl.h" -void *crypto_mutex = NULL; - cvar_t crypto_developer = {CVAR_SAVE, "crypto_developer", "0", "print extra info about crypto handshake"}; +cvar_t crypto_aeslevel = {CVAR_SAVE, "crypto_aeslevel", "1", "whether to support AES encryption in authenticated connections (0 = no, 1 = supported, 2 = requested, 3 = required)"}; + cvar_t crypto_servercpupercent = {CVAR_SAVE, "crypto_servercpupercent", "10", "allowed crypto CPU load in percent for server operation (0 = no limit, faster)"}; cvar_t crypto_servercpumaxtime = {CVAR_SAVE, "crypto_servercpumaxtime", "0.01", "maximum allowed crypto CPU time per frame (0 = no limit)"}; cvar_t crypto_servercpudebug = {CVAR_SAVE, "crypto_servercpudebug", "0", "print statistics about time usage by crypto"}; static double crypto_servercpu_accumulator = 0; static double crypto_servercpu_lastrealtime = 0; -cvar_t crypto_aeslevel = {CVAR_SAVE, "crypto_aeslevel", "1", "whether to support AES encryption in authenticated connections (0 = no, 1 = supported, 2 = requested, 3 = required)"}; + +extern cvar_t net_sourceaddresscheck; + int crypto_keyfp_recommended_length; static const char *crypto_idstring = NULL; static char crypto_idstring_buf[512]; + #define PROTOCOL_D0_BLIND_ID FOURCC_D0PK #define PROTOCOL_VLEN (('v' << 0) | ('l' << 8) | ('e' << 16) | ('n' << 24)) @@ -93,7 +95,7 @@ static size_t Crypto_UnParsePack(char *buf, size_t len, unsigned long header, co { if(pos + 4 + lumpsize[i] > len) return 0; - Crypto_UnLittleLong(&buf[pos], lumpsize[i]); + Crypto_UnLittleLong(&buf[pos], (unsigned long)lumpsize[i]); pos += 4; memcpy(&buf[pos], lumps[i], lumpsize[i]); pos += lumpsize[i]; @@ -104,7 +106,7 @@ static size_t Crypto_UnParsePack(char *buf, size_t len, unsigned long header, co #define USE_AES -#ifdef CRYPTO_STATIC +#ifdef LINK_TO_CRYPTO #include @@ -149,6 +151,8 @@ static size_t Crypto_UnParsePack(char *buf, size_t len, unsigned long header, co #define qd0_blind_id_sign_with_private_id_sign_detached d0_blind_id_sign_with_private_id_sign_detached #define qd0_blind_id_setmallocfuncs d0_blind_id_setmallocfuncs #define qd0_blind_id_setmutexfuncs d0_blind_id_setmutexfuncs +#define qd0_blind_id_verify_public_id d0_blind_id_verify_public_id +#define qd0_blind_id_verify_private_id d0_blind_id_verify_private_id #else @@ -207,6 +211,8 @@ static D0_EXPORT D0_WARN_UNUSED_RESULT D0_BOOL (*qd0_blind_id_sign_with_private_ static D0_EXPORT D0_WARN_UNUSED_RESULT D0_BOOL (*qd0_blind_id_sign_with_private_id_sign_detached) (d0_blind_id_t *ctx, D0_BOOL is_first, D0_BOOL send_modulus, const char *message, size_t msglen, char *outbuf, size_t *outbuflen); static D0_EXPORT void (*qd0_blind_id_setmallocfuncs)(d0_malloc_t *m, d0_free_t *f); static D0_EXPORT void (*qd0_blind_id_setmutexfuncs)(d0_createmutex_t *c, d0_destroymutex_t *d, d0_lockmutex_t *l, d0_unlockmutex_t *u); +static D0_EXPORT D0_WARN_UNUSED_RESULT D0_BOOL (*qd0_blind_id_verify_public_id)(const d0_blind_id_t *ctx, D0_BOOL *status); +static D0_EXPORT D0_WARN_UNUSED_RESULT D0_BOOL (*qd0_blind_id_verify_private_id)(const d0_blind_id_t *ctx); static dllfunction_t d0_blind_id_funcs[] = { {"d0_blind_id_new", (void **) &qd0_blind_id_new}, @@ -246,6 +252,8 @@ static dllfunction_t d0_blind_id_funcs[] = {"d0_blind_id_sign_with_private_id_sign_detached", (void **) &qd0_blind_id_sign_with_private_id_sign_detached}, {"d0_blind_id_setmallocfuncs", (void **) &qd0_blind_id_setmallocfuncs}, {"d0_blind_id_setmutexfuncs", (void **) &qd0_blind_id_setmutexfuncs}, + {"d0_blind_id_verify_public_id", (void **) &qd0_blind_id_verify_public_id}, + {"d0_blind_id_verify_private_id", (void **) &qd0_blind_id_verify_private_id}, {NULL, NULL} }; // end of d0_blind_id interface @@ -281,7 +289,7 @@ static void Crypto_CloseLibrary (void) #endif -#ifdef CRYPTO_RIJNDAEL_STATIC +#ifdef LINK_TO_CRYPTO_RIJNDAEL #include @@ -356,14 +364,14 @@ void sha256(unsigned char *out, const unsigned char *in, int n) qd0_blind_id_util_sha256((char *) out, (const char *) in, n); } -static size_t Crypto_LoadFile(const char *path, char *buf, size_t nmax) +static size_t Crypto_LoadFile(const char *path, char *buf, size_t nmax, qboolean inuserdir) { char vabuf[1024]; qfile_t *f = NULL; fs_offset_t n; - if(*fs_userdir) - f = FS_SysOpen(va(vabuf, sizeof(vabuf), "%s%s", fs_userdir, path), "rb", false); - if(!f) + if(inuserdir) + f = FS_SysOpen(va(vabuf, sizeof(vabuf), "%s%s", *fs_userdir ? fs_userdir : fs_basedir, path), "rb", false); + else f = FS_SysOpen(va(vabuf, sizeof(vabuf), "%s%s", fs_basedir, path), "rb", false); if(!f) return 0; @@ -409,17 +417,12 @@ static const char *GetUntilNul(const char **data, size_t *len) *len = 0; return NULL; } - else - { - n = (p - *data) + 1; - *len -= n; - *data += n; - if(*len == 0) - *data = NULL; - return (const char *) data_save; - } - *data = NULL; - return NULL; + n = (p - *data) + 1; + *len -= n; + *data += n; + if(*len == 0) + *data = NULL; + return (const char *) data_save; } // d0pk reading @@ -458,6 +461,7 @@ static qboolean Crypto_AddPrivateKey(d0_blind_id_t *pk, char *buf, size_t len) static d0_blind_id_t *pubkeys[MAX_PUBKEYS]; static char pubkeys_fp64[MAX_PUBKEYS][FP64_SIZE+1]; static qboolean pubkeys_havepriv[MAX_PUBKEYS]; +static qboolean pubkeys_havesig[MAX_PUBKEYS]; static char pubkeys_priv_fp64[MAX_PUBKEYS][FP64_SIZE+1]; static char challenge_append[1400]; static size_t challenge_append_length; @@ -490,6 +494,7 @@ typedef struct char challenge[2048]; char wantserver_idfp[FP64_SIZE+1]; qboolean wantserver_aes; + qboolean wantserver_issigned; int cdata_id; } crypto_data_t; @@ -529,7 +534,7 @@ static crypto_t *Crypto_ServerFindInstance(lhnetaddress_t *peeraddress, qboolean return crypto; } -qboolean Crypto_ServerFinishInstance(crypto_t *out, crypto_t *crypto) +qboolean Crypto_FinishInstance(crypto_t *out, crypto_t *crypto) { // no check needed here (returned pointers are only used in prefilled fields) if(!crypto || !crypto->authenticated) @@ -540,7 +545,7 @@ qboolean Crypto_ServerFinishInstance(crypto_t *out, crypto_t *crypto) } CLEAR_CDATA; memcpy(out, crypto, sizeof(*out)); - memset(crypto, 0, sizeof(crypto)); + memset(crypto, 0, sizeof(*crypto)); return true; } @@ -557,6 +562,7 @@ typedef struct crypto_storedhostkey_s int keyid; char idfp[FP64_SIZE+1]; int aeslevel; + qboolean issigned; } crypto_storedhostkey_t; static crypto_storedhostkey_t *crypto_storedhostkey_hashtable[CRYPTO_HOSTKEY_HASHSIZE]; @@ -613,6 +619,7 @@ static void Crypto_StoreHostKey(lhnetaddress_t *peeraddress, const char *keystri int keyid; char idfp[FP64_SIZE+1]; int aeslevel; + qboolean issigned; if(!d0_blind_id_dll) return; @@ -627,10 +634,12 @@ static void Crypto_StoreHostKey(lhnetaddress_t *peeraddress, const char *keystri ++keystring; keyid = -1; + issigned = false; while(*keystring && keyid < 0) { // id@key const char *idstart, *idend, *keystart, *keyend; + qboolean thisissigned = true; ++keystring; // skip the space idstart = keystring; while(*keystring && *keystring != ' ' && *keystring != '@') @@ -644,18 +653,26 @@ static void Crypto_StoreHostKey(lhnetaddress_t *peeraddress, const char *keystri ++keystring; keyend = keystring; + if (keystart[0] == '~') + { + thisissigned = false; + ++keystart; + } + if(idend - idstart == FP64_SIZE && keyend - keystart == FP64_SIZE) { - for(keyid = 0; keyid < MAX_PUBKEYS; ++keyid) - if(pubkeys[keyid]) - if(!memcmp(pubkeys_fp64[keyid], keystart, FP64_SIZE)) + int thiskeyid; + for(thiskeyid = MAX_PUBKEYS - 1; thiskeyid >= 0; --thiskeyid) + if(pubkeys[thiskeyid]) + if(!memcmp(pubkeys_fp64[thiskeyid], keystart, FP64_SIZE)) { memcpy(idfp, idstart, FP64_SIZE); idfp[FP64_SIZE] = 0; + keyid = thiskeyid; + issigned = thisissigned; break; } - if(keyid >= MAX_PUBKEYS) - keyid = -1; + // If this failed, keyid will be -1. } } @@ -674,8 +691,11 @@ static void Crypto_StoreHostKey(lhnetaddress_t *peeraddress, const char *keystri Con_Printf("Server %s tried to change the host key to a value not in the host cache. Connecting to it will fail. To accept the new host key, do crypto_hostkey_clear %s\n", buf, buf); if(hk->aeslevel > aeslevel) Con_Printf("Server %s tried to reduce encryption status, not accepted. Connecting to it will fail. To accept, do crypto_hostkey_clear %s\n", buf, buf); + if(hk->issigned > issigned) + Con_Printf("Server %s tried to reduce signature status, not accepted. Connecting to it will fail. To accept, do crypto_hostkey_clear %s\n", buf, buf); } hk->aeslevel = max(aeslevel, hk->aeslevel); + hk->issigned = issigned; return; } @@ -686,10 +706,11 @@ static void Crypto_StoreHostKey(lhnetaddress_t *peeraddress, const char *keystri memcpy(hk->idfp, idfp, FP64_SIZE+1); hk->next = crypto_storedhostkey_hashtable[hashindex]; hk->aeslevel = aeslevel; + hk->issigned = issigned; crypto_storedhostkey_hashtable[hashindex] = hk; } -qboolean Crypto_RetrieveHostKey(lhnetaddress_t *peeraddress, int *keyid, char *keyfp, size_t keyfplen, char *idfp, size_t idfplen, int *aeslevel) +qboolean Crypto_RetrieveHostKey(lhnetaddress_t *peeraddress, int *keyid, char *keyfp, size_t keyfplen, char *idfp, size_t idfplen, int *aeslevel, qboolean *issigned) { char buf[128]; int hashindex; @@ -713,10 +734,12 @@ qboolean Crypto_RetrieveHostKey(lhnetaddress_t *peeraddress, int *keyid, char *k strlcpy(idfp, hk->idfp, idfplen); if(aeslevel) *aeslevel = hk->aeslevel; + if(issigned) + *issigned = hk->issigned; return true; } -int Crypto_RetrieveLocalKey(int keyid, char *keyfp, size_t keyfplen, char *idfp, size_t idfplen) // return value: -1 if more to come, +1 if valid, 0 if end of list +int Crypto_RetrieveLocalKey(int keyid, char *keyfp, size_t keyfplen, char *idfp, size_t idfplen, qboolean *issigned) // return value: -1 if more to come, +1 if valid, 0 if end of list { if(keyid < 0 || keyid >= MAX_PUBKEYS) return 0; @@ -730,7 +753,9 @@ int Crypto_RetrieveLocalKey(int keyid, char *keyfp, size_t keyfplen, char *idfp, strlcpy(keyfp, pubkeys_fp64[keyid], keyfplen); if(idfp) if(pubkeys_havepriv[keyid]) - strlcpy(idfp, pubkeys_priv_fp64[keyid], keyfplen); + strlcpy(idfp, pubkeys_priv_fp64[keyid], idfplen); + if(issigned) + *issigned = pubkeys_havesig[keyid]; return 1; } // end @@ -765,34 +790,82 @@ static void Crypto_BuildChallengeAppend(void) challenge_append_length = p - challenge_append; } -static void Crypto_LoadKeys(void) +static qboolean Crypto_SavePubKeyTextFile(int i) +{ + qfile_t *f; + char vabuf[1024]; + + if(!pubkeys_havepriv[i]) + return false; + f = FS_SysOpen(va(vabuf, sizeof(vabuf), "%skey_%d-public-fp%s.txt", *fs_userdir ? fs_userdir : fs_basedir, i, sessionid.string), "w", false); + if(!f) + return false; + + // we ignore errors for this file, as it's not necessary to have + FS_Printf(f, "ID-Fingerprint: %s\n", pubkeys_priv_fp64[i]); + FS_Printf(f, "ID-Is-Signed: %s\n", pubkeys_havesig[i] ? "yes" : "no"); + FS_Printf(f, "ID-Is-For-Key: %s\n", pubkeys_fp64[i]); + FS_Printf(f, "\n"); + FS_Printf(f, "This is a PUBLIC ID file for DarkPlaces.\n"); + FS_Printf(f, "You are free to share this file or its contents.\n"); + FS_Printf(f, "\n"); + FS_Printf(f, "This file will be automatically generated again if deleted.\n"); + FS_Printf(f, "\n"); + FS_Printf(f, "However, NEVER share the accompanying SECRET ID file called\n"); + FS_Printf(f, "key_%d.d0si%s, as doing so would compromise security!\n", i, sessionid.string); + FS_Close(f); + + return true; +} + +static void Crypto_BuildIdString(void) +{ + int i; + char vabuf[1024]; + + crypto_idstring = NULL; + dpsnprintf(crypto_idstring_buf, sizeof(crypto_idstring_buf), "%d", d0_rijndael_dll ? crypto_aeslevel.integer : 0); + for (i = 0; i < MAX_PUBKEYS; ++i) + if (pubkeys[i]) + strlcat(crypto_idstring_buf, va(vabuf, sizeof(vabuf), " %s@%s%s", pubkeys_priv_fp64[i], pubkeys_havesig[i] ? "" : "~", pubkeys_fp64[i]), sizeof(crypto_idstring_buf)); + crypto_idstring = crypto_idstring_buf; +} + +void Crypto_LoadKeys(void) { char buf[8192]; size_t len, len2; int i; char vabuf[1024]; + if(!d0_blind_id_dll) // don't if we can't + return; + + if(crypto_idstring) // already loaded? then not + return; + + Host_LockSession(); // we use the session ID here + // load keys // note: we are just a CLIENT // so we load: // PUBLIC KEYS to accept (including modulus) // PRIVATE KEY of user - crypto_idstring = NULL; - dpsnprintf(crypto_idstring_buf, sizeof(crypto_idstring_buf), "%d", d0_rijndael_dll ? crypto_aeslevel.integer : 0); for(i = 0; i < MAX_PUBKEYS; ++i) { memset(pubkeys_fp64[i], 0, sizeof(pubkeys_fp64[i])); memset(pubkeys_priv_fp64[i], 0, sizeof(pubkeys_fp64[i])); pubkeys_havepriv[i] = false; - len = Crypto_LoadFile(va(vabuf, sizeof(vabuf), "key_%d.d0pk", i), buf, sizeof(buf)); + pubkeys_havesig[i] = false; + len = Crypto_LoadFile(va(vabuf, sizeof(vabuf), "key_%d.d0pk", i), buf, sizeof(buf), false); if((pubkeys[i] = Crypto_ReadPublicKey(buf, len))) { len2 = FP64_SIZE; if(qd0_blind_id_fingerprint64_public_key(pubkeys[i], pubkeys_fp64[i], &len2)) // keeps final NUL { Con_Printf("Loaded public key key_%d.d0pk (fingerprint: %s)\n", i, pubkeys_fp64[i]); - len = Crypto_LoadFile(va(vabuf, sizeof(vabuf), "key_%d.d0si", i), buf, sizeof(buf)); + len = Crypto_LoadFile(va(vabuf, sizeof(vabuf), "key_%d.d0si%s", i, sessionid.string), buf, sizeof(buf), true); if(len) { if(Crypto_AddPrivateKey(pubkeys[i], buf, len)) @@ -800,14 +873,34 @@ static void Crypto_LoadKeys(void) len2 = FP64_SIZE; if(qd0_blind_id_fingerprint64_public_id(pubkeys[i], pubkeys_priv_fp64[i], &len2)) // keeps final NUL { - Con_Printf("Loaded private ID key_%d.d0si for key_%d.d0pk (public key fingerprint: %s)\n", i, i, pubkeys_priv_fp64[i]); - pubkeys_havepriv[i] = true; - strlcat(crypto_idstring_buf, va(vabuf, sizeof(vabuf), " %s@%s", pubkeys_priv_fp64[i], pubkeys_fp64[i]), sizeof(crypto_idstring_buf)); + D0_BOOL status = 0; + + Con_Printf("Loaded private ID key_%d.d0si%s for key_%d.d0pk (public key fingerprint: %s)\n", i, sessionid.string, i, pubkeys_priv_fp64[i]); + + // verify the key we just loaded (just in case) + if(qd0_blind_id_verify_private_id(pubkeys[i]) && qd0_blind_id_verify_public_id(pubkeys[i], &status)) + { + pubkeys_havepriv[i] = true; + pubkeys_havesig[i] = status; + + // verify the key we just got (just in case) + if(!status) + Con_Printf("NOTE: this ID has not yet been signed!\n"); + + Crypto_SavePubKeyTextFile(i); + } + else + { + Con_Printf("d0_blind_id_verify_private_id failed, this is not a valid key!\n"); + qd0_blind_id_free(pubkeys[i]); + pubkeys[i] = NULL; + } } else { - // can't really happen - // but nothing leaked here + Con_Printf("d0_blind_id_fingerprint64_public_id failed\n"); + qd0_blind_id_free(pubkeys[i]); + pubkeys[i] = NULL; } } } @@ -820,9 +913,9 @@ static void Crypto_LoadKeys(void) } } } - crypto_idstring = crypto_idstring_buf; keygen_i = -1; + Crypto_BuildIdString(); Crypto_BuildChallengeAppend(); // find a good prefix length for all the keys we know (yes, algorithm is not perfect yet, may yield too long prefix length) @@ -871,6 +964,7 @@ static void Crypto_LoadKeys(void) static void Crypto_UnloadKeys(void) { int i; + keygen_i = -1; for(i = 0; i < MAX_PUBKEYS; ++i) { @@ -878,6 +972,7 @@ static void Crypto_UnloadKeys(void) qd0_blind_id_free(pubkeys[i]); pubkeys[i] = NULL; pubkeys_havepriv[i] = false; + pubkeys_havesig[i] = false; memset(pubkeys_fp64[i], 0, sizeof(pubkeys_fp64[i])); memset(pubkeys_priv_fp64[i], 0, sizeof(pubkeys_fp64[i])); challenge_append_length = 0; @@ -885,39 +980,38 @@ static void Crypto_UnloadKeys(void) crypto_idstring = NULL; } - static mempool_t *cryptomempool; #ifdef __cplusplus extern "C" { #endif -static void *d0_malloc(size_t len) +static void *Crypto_d0_malloc(size_t len) { return Mem_Alloc(cryptomempool, len); } -static void d0_free(void *p) +static void Crypto_d0_free(void *p) { Mem_Free(p); } -static void *d0_createmutex(void) +static void *Crypto_d0_createmutex(void) { return Thread_CreateMutex(); } -static void d0_destroymutex(void *m) +static void Crypto_d0_destroymutex(void *m) { Thread_DestroyMutex(m); } -static int d0_lockmutex(void *m) +static int Crypto_d0_lockmutex(void *m) { return Thread_LockMutex(m); } -static int d0_unlockmutex(void *m) +static int Crypto_d0_unlockmutex(void *m) { return Thread_UnlockMutex(m); } @@ -930,10 +1024,6 @@ void Crypto_Shutdown(void) crypto_t *crypto; int i; - if (crypto_mutex) - Thread_DestroyMutex(crypto_mutex); - crypto_mutex = NULL; - Crypto_Rijndael_CloseLibrary(); if(d0_blind_id_dll) @@ -965,12 +1055,9 @@ void Crypto_Init(void) if(!Crypto_OpenLibrary()) return; - qd0_blind_id_setmallocfuncs(d0_malloc, d0_free); + qd0_blind_id_setmallocfuncs(Crypto_d0_malloc, Crypto_d0_free); if (Thread_HasThreads()) - { - crypto_mutex = Thread_CreateMutex(); - qd0_blind_id_setmutexfuncs(d0_createmutex, d0_destroymutex, d0_lockmutex, d0_unlockmutex); - } + qd0_blind_id_setmutexfuncs(Crypto_d0_createmutex, Crypto_d0_destroymutex, Crypto_d0_lockmutex, Crypto_d0_unlockmutex); if(!qd0_blind_id_INITIALIZE()) { @@ -980,10 +1067,9 @@ void Crypto_Init(void) return; } - Crypto_Rijndael_OpenLibrary(); // if this fails, it's uncritical + (void) Crypto_Rijndael_OpenLibrary(); // if this fails, it's uncritical Crypto_InitHostKeys(); - Crypto_LoadKeys(); } // end @@ -1001,35 +1087,33 @@ static void Crypto_KeyGen_Finished(int code, size_t length_received, unsigned ch size_t l[1]; static char buf[8192]; static char buf2[8192]; - size_t bufsize, buf2size; + size_t buf2size; qfile_t *f = NULL; - d0_blind_id_t *ctx, *ctx2; D0_BOOL status; - size_t len2; char vabuf[1024]; - if (crypto_mutex) Thread_LockMutex(crypto_mutex); + SV_LockThreadMutex(); if(!d0_blind_id_dll) { Con_Print("libd0_blind_id DLL not found, this command is inactive.\n"); keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } - if(keygen_i >= MAX_PUBKEYS || !pubkeys[keygen_i]) + if(keygen_i < 0) { - Con_Printf("overflow of keygen_i\n"); - keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + Con_Printf("Unexpected response from keygen server:\n"); + Com_HexDumpToConsole(buffer, (int)length_received); + SV_UnlockThreadMutex(); return; } - if(keygen_i < 0) + if(keygen_i >= MAX_PUBKEYS || !pubkeys[keygen_i]) { - Con_Printf("Unexpected response from keygen server:\n"); - Com_HexDumpToConsole(buffer, length_received); - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + Con_Printf("overflow of keygen_i\n"); + keygen_i = -1; + SV_UnlockThreadMutex(); return; } if(!Crypto_ParsePack((const char *) buffer, length_received, FOURCC_D0IR, p, l, 1)) @@ -1041,110 +1125,34 @@ static void Crypto_KeyGen_Finished(int code, size_t length_received, unsigned ch else { Con_Printf("Invalid response from keygen server:\n"); - Com_HexDumpToConsole(buffer, length_received); + Com_HexDumpToConsole(buffer, (int)length_received); } keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } if(!qd0_blind_id_finish_private_id_request(pubkeys[keygen_i], p[0], l[0])) { Con_Printf("d0_blind_id_finish_private_id_request failed\n"); keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } // verify the key we just got (just in case) - ctx = qd0_blind_id_new(); - if(!ctx) - { - Con_Printf("d0_blind_id_new failed\n"); - keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); - return; - } - ctx2 = qd0_blind_id_new(); - if(!ctx2) - { - Con_Printf("d0_blind_id_new failed\n"); - qd0_blind_id_free(ctx); - keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); - return; - } - if(!qd0_blind_id_copy(ctx, pubkeys[keygen_i])) - { - Con_Printf("d0_blind_id_copy failed\n"); - qd0_blind_id_free(ctx); - qd0_blind_id_free(ctx2); - keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); - return; - } - if(!qd0_blind_id_copy(ctx2, pubkeys[keygen_i])) - { - Con_Printf("d0_blind_id_copy failed\n"); - qd0_blind_id_free(ctx); - qd0_blind_id_free(ctx2); - keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); - return; - } - bufsize = sizeof(buf); - if(!qd0_blind_id_authenticate_with_private_id_start(ctx, 1, 1, "hello world", 11, buf, &bufsize)) - { - Con_Printf("d0_blind_id_authenticate_with_private_id_start failed\n"); - qd0_blind_id_free(ctx); - qd0_blind_id_free(ctx2); - keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); - return; - } - buf2size = sizeof(buf2); - if(!qd0_blind_id_authenticate_with_private_id_challenge(ctx2, 1, 1, buf, bufsize, buf2, &buf2size, &status) || !status) - { - Con_Printf("d0_blind_id_authenticate_with_private_id_challenge failed (server does not have the requested private key)\n"); - qd0_blind_id_free(ctx); - qd0_blind_id_free(ctx2); - keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); - return; - } - bufsize = sizeof(buf); - if(!qd0_blind_id_authenticate_with_private_id_response(ctx, buf2, buf2size, buf, &bufsize)) - { - Con_Printf("d0_blind_id_authenticate_with_private_id_response failed\n"); - qd0_blind_id_free(ctx); - qd0_blind_id_free(ctx2); - keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); - return; - } - buf2size = sizeof(buf2); - if(!qd0_blind_id_authenticate_with_private_id_verify(ctx2, buf, bufsize, buf2, &buf2size, &status) || !status) + if(!qd0_blind_id_verify_public_id(pubkeys[keygen_i], &status) || !status) { - Con_Printf("d0_blind_id_authenticate_with_private_id_verify failed (server does not have the requested private key)\n"); - qd0_blind_id_free(ctx); - qd0_blind_id_free(ctx2); + Con_Printf("d0_blind_id_verify_public_id failed\n"); keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } - qd0_blind_id_free(ctx); - qd0_blind_id_free(ctx2); // we have a valid key now! // make the rest of crypto.c know that - len2 = FP64_SIZE; - if(qd0_blind_id_fingerprint64_public_id(pubkeys[keygen_i], pubkeys_priv_fp64[keygen_i], &len2)) // keeps final NUL - { - Con_Printf("Received private ID key_%d.d0pk (public key fingerprint: %s)\n", keygen_i, pubkeys_priv_fp64[keygen_i]); - pubkeys_havepriv[keygen_i] = true; - strlcat(crypto_idstring_buf, va(vabuf, sizeof(vabuf), " %s@%s", pubkeys_priv_fp64[keygen_i], pubkeys_fp64[keygen_i]), sizeof(crypto_idstring_buf)); - crypto_idstring = crypto_idstring_buf; - Crypto_BuildChallengeAppend(); - } + Con_Printf("Received signature for private ID key_%d.d0pk (public key fingerprint: %s)\n", keygen_i, pubkeys_priv_fp64[keygen_i]); + pubkeys_havesig[keygen_i] = true; + // write the key to disk p[0] = buf; l[0] = sizeof(buf); @@ -1152,40 +1160,37 @@ static void Crypto_KeyGen_Finished(int code, size_t length_received, unsigned ch { Con_Printf("d0_blind_id_write_private_id failed\n"); keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } if(!(buf2size = Crypto_UnParsePack(buf2, sizeof(buf2), FOURCC_D0SI, p, l, 1))) { Con_Printf("Crypto_UnParsePack failed\n"); keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } - if(*fs_userdir) - { - FS_CreatePath(va(vabuf, sizeof(vabuf), "%skey_%d.d0si", fs_userdir, keygen_i)); - f = FS_SysOpen(va(vabuf, sizeof(vabuf), "%skey_%d.d0si", fs_userdir, keygen_i), "wb", false); - } - if(!f) - { - FS_CreatePath(va(vabuf, sizeof(vabuf), "%skey_%d.d0si", fs_basedir, keygen_i)); - f = FS_SysOpen(va(vabuf, sizeof(vabuf), "%skey_%d.d0si", fs_basedir, keygen_i), "wb", false); - } + FS_CreatePath(va(vabuf, sizeof(vabuf), "%skey_%d.d0si%s", *fs_userdir ? fs_userdir : fs_basedir, keygen_i, sessionid.string)); + f = FS_SysOpen(va(vabuf, sizeof(vabuf), "%skey_%d.d0si%s", *fs_userdir ? fs_userdir : fs_basedir, keygen_i, sessionid.string), "wb", false); if(!f) { - Con_Printf("Cannot open key_%d.d0si\n", keygen_i); + Con_Printf("Cannot open key_%d.d0si%s\n", keygen_i, sessionid.string); keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } FS_Write(f, buf2, buf2size); FS_Close(f); - Con_Printf("Saved to key_%d.d0si\n", keygen_i); + Crypto_SavePubKeyTextFile(keygen_i); + + Con_Printf("Saved to key_%d.d0si%s\n", keygen_i, sessionid.string); + + Crypto_BuildIdString(); + keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); } static void Crypto_KeyGen_f(void) @@ -1195,7 +1200,12 @@ static void Crypto_KeyGen_f(void) size_t l[1]; static char buf[8192]; static char buf2[8192]; + size_t buf2size; size_t buf2l, buf2pos; + char vabuf[1024]; + size_t len2; + qfile_t *f = NULL; + if(!d0_blind_id_dll) { Con_Print("libd0_blind_id DLL not found, this command is inactive.\n"); @@ -1206,33 +1216,98 @@ static void Crypto_KeyGen_f(void) Con_Printf("usage:\n%s id url\n", Cmd_Argv(0)); return; } - if (crypto_mutex) Thread_LockMutex(crypto_mutex); + SV_LockThreadMutex(); + Crypto_LoadKeys(); i = atoi(Cmd_Argv(1)); if(!pubkeys[i]) { Con_Printf("there is no public key %d\n", i); - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); - return; - } - if(pubkeys_havepriv[i]) - { - Con_Printf("there is already a private key for %d\n", i); - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } if(keygen_i >= 0) { Con_Printf("there is already a keygen run on the way\n"); - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } keygen_i = i; - if(!qd0_blind_id_generate_private_id_start(pubkeys[keygen_i])) + + // how to START the keygenning... + if(pubkeys_havepriv[keygen_i]) { - Con_Printf("d0_blind_id_start failed\n"); - keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); - return; + if(pubkeys_havesig[keygen_i]) + { + Con_Printf("there is already a signed private key for %d\n", i); + keygen_i = -1; + SV_UnlockThreadMutex(); + return; + } + // if we get here, we only need a signature, no new keygen run needed + Con_Printf("Only need a signature for an existing key...\n"); + } + else + { + // we also need a new ID itself + if(!qd0_blind_id_generate_private_id_start(pubkeys[keygen_i])) + { + Con_Printf("d0_blind_id_start failed\n"); + keygen_i = -1; + SV_UnlockThreadMutex(); + return; + } + // verify the key we just got (just in case) + if(!qd0_blind_id_verify_private_id(pubkeys[keygen_i])) + { + Con_Printf("d0_blind_id_verify_private_id failed\n"); + keygen_i = -1; + SV_UnlockThreadMutex(); + return; + } + // we have a valid key now! + // make the rest of crypto.c know that + len2 = FP64_SIZE; + if(qd0_blind_id_fingerprint64_public_id(pubkeys[keygen_i], pubkeys_priv_fp64[keygen_i], &len2)) // keeps final NUL + { + Con_Printf("Generated private ID key_%d.d0pk (public key fingerprint: %s)\n", keygen_i, pubkeys_priv_fp64[keygen_i]); + pubkeys_havepriv[keygen_i] = true; + strlcat(crypto_idstring_buf, va(vabuf, sizeof(vabuf), " %s@%s", pubkeys_priv_fp64[keygen_i], pubkeys_fp64[keygen_i]), sizeof(crypto_idstring_buf)); + crypto_idstring = crypto_idstring_buf; + Crypto_BuildChallengeAppend(); + } + // write the key to disk + p[0] = buf; + l[0] = sizeof(buf); + if(!qd0_blind_id_write_private_id(pubkeys[keygen_i], buf, &l[0])) + { + Con_Printf("d0_blind_id_write_private_id failed\n"); + keygen_i = -1; + SV_UnlockThreadMutex(); + return; + } + if(!(buf2size = Crypto_UnParsePack(buf2, sizeof(buf2), FOURCC_D0SI, p, l, 1))) + { + Con_Printf("Crypto_UnParsePack failed\n"); + keygen_i = -1; + SV_UnlockThreadMutex(); + return; + } + + FS_CreatePath(va(vabuf, sizeof(vabuf), "%skey_%d.d0si%s", *fs_userdir ? fs_userdir : fs_basedir, keygen_i, sessionid.string)); + f = FS_SysOpen(va(vabuf, sizeof(vabuf), "%skey_%d.d0si%s", *fs_userdir ? fs_userdir : fs_basedir, keygen_i, sessionid.string), "wb", false); + if(!f) + { + Con_Printf("Cannot open key_%d.d0si%s\n", keygen_i, sessionid.string); + keygen_i = -1; + SV_UnlockThreadMutex(); + return; + } + FS_Write(f, buf2, buf2size); + FS_Close(f); + + Crypto_SavePubKeyTextFile(keygen_i); + + Con_Printf("Saved unsigned key to key_%d.d0si%s\n", keygen_i, sessionid.string); } p[0] = buf; l[0] = sizeof(buf); @@ -1240,7 +1315,7 @@ static void Crypto_KeyGen_f(void) { Con_Printf("d0_blind_id_generate_private_id_request failed\n"); keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } buf2pos = strlen(Cmd_Argv(2)); @@ -1249,27 +1324,27 @@ static void Crypto_KeyGen_f(void) { Con_Printf("Crypto_UnParsePack failed\n"); keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } if(!(buf2l = base64_encode((unsigned char *) (buf2 + buf2pos), buf2l, sizeof(buf2) - buf2pos - 1))) { Con_Printf("base64_encode failed\n"); keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } buf2l += buf2pos; - buf[buf2l] = 0; + buf2[buf2l] = 0; if(!Curl_Begin_ToMemory(buf2, 0, (unsigned char *) keygen_buf, sizeof(keygen_buf), Crypto_KeyGen_Finished, NULL)) { Con_Printf("curl failed\n"); keygen_i = -1; - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + SV_UnlockThreadMutex(); return; } - Con_Printf("key generation in progress\n"); - if (crypto_mutex) Thread_UnlockMutex(crypto_mutex); + Con_Printf("Signature generation in progress...\n"); + SV_UnlockThreadMutex(); } // end @@ -1295,7 +1370,11 @@ static void Crypto_Keys_f(void) { Con_Printf("%2d: public key key_%d.d0pk (fingerprint: %s)\n", i, i, pubkeys_fp64[i]); if(pubkeys_havepriv[i]) - Con_Printf(" private ID key_%d.d0si (public key fingerprint: %s)\n", i, pubkeys_priv_fp64[i]); + { + Con_Printf(" private ID key_%d.d0si%s (public key fingerprint: %s)\n", i, sessionid.string, pubkeys_priv_fp64[i]); + if(!pubkeys_havesig[i]) + Con_Printf(" NOTE: this ID has not yet been signed!\n"); + } } } } @@ -1437,15 +1516,15 @@ const void *Crypto_EncryptPacket(crypto_t *crypto, const void *data_src, size_t if(developer_networking.integer) { Con_Print("To be encrypted:\n"); - Com_HexDumpToConsole((const unsigned char *) data_src, len_src); + Com_HexDumpToConsole((const unsigned char *) data_src, (int)len_src); } - if(len_src + 32 > len || !HMAC_SHA256_32BYTES(h, (const unsigned char *) data_src, len_src, crypto->dhkey, DHKEY_SIZE)) + if(len_src + 32 > len || !HMAC_SHA256_32BYTES(h, (const unsigned char *) data_src, (int)len_src, crypto->dhkey, DHKEY_SIZE)) { Con_Printf("Crypto_EncryptPacket failed (not enough space: %d bytes in, %d bytes out)\n", (int) len_src, (int) len); return NULL; } *len_dst = ((len_src + 15) / 16) * 16 + 16; // add 16 for HMAC, then round to 16-size for AES - ((unsigned char *) data_dst)[0] = *len_dst - len_src; + ((unsigned char *) data_dst)[0] = (unsigned char)(*len_dst - len_src); memcpy(((unsigned char *) data_dst)+1, h, 15); aescpy(crypto->dhkey, (const unsigned char *) data_dst, ((unsigned char *) data_dst) + 16, (const unsigned char *) data_src, len_src); // IV dst src len @@ -1453,7 +1532,7 @@ const void *Crypto_EncryptPacket(crypto_t *crypto, const void *data_src, size_t else { // HMAC packet = 16 bytes HMAC-SHA-256 (truncated to 128 bits), data - if(len_src + 16 > len || !HMAC_SHA256_32BYTES(h, (const unsigned char *) data_src, len_src, crypto->dhkey, DHKEY_SIZE)) + if(len_src + 16 > len || !HMAC_SHA256_32BYTES(h, (const unsigned char *) data_src, (int)len_src, crypto->dhkey, DHKEY_SIZE)) { Con_Printf("Crypto_EncryptPacket failed (not enough space: %d bytes in, %d bytes out)\n", (int) len_src, (int) len); return NULL; @@ -1511,7 +1590,7 @@ const void *Crypto_DecryptPacket(crypto_t *crypto, const void *data_src, size_t } seacpy(crypto->dhkey, (unsigned char *) data_src, (unsigned char *) data_dst, ((const unsigned char *) data_src) + 16, *len_dst); // IV dst src len - if(!HMAC_SHA256_32BYTES(h, (const unsigned char *) data_dst, *len_dst, crypto->dhkey, DHKEY_SIZE)) + if(!HMAC_SHA256_32BYTES(h, (const unsigned char *) data_dst, (int)*len_dst, crypto->dhkey, DHKEY_SIZE)) { Con_Printf("HMAC fail\n"); return NULL; @@ -1524,7 +1603,7 @@ const void *Crypto_DecryptPacket(crypto_t *crypto, const void *data_src, size_t if(developer_networking.integer) { Con_Print("Decrypted:\n"); - Com_HexDumpToConsole((const unsigned char *) data_dst, *len_dst); + Com_HexDumpToConsole((const unsigned char *) data_dst, (int)*len_dst); } return data_dst; // no need to copy } @@ -1542,10 +1621,10 @@ const void *Crypto_DecryptPacket(crypto_t *crypto, const void *data_src, size_t return NULL; } //memcpy(data_dst, data_src + 16, *len_dst); - if(!HMAC_SHA256_32BYTES(h, ((const unsigned char *) data_src) + 16, *len_dst, crypto->dhkey, DHKEY_SIZE)) + if(!HMAC_SHA256_32BYTES(h, ((const unsigned char *) data_src) + 16, (int)*len_dst, crypto->dhkey, DHKEY_SIZE)) { Con_Printf("HMAC fail\n"); - Com_HexDumpToConsole((const unsigned char *) data_src, len_src); + Com_HexDumpToConsole((const unsigned char *) data_src, (int)len_src); return NULL; } @@ -1563,14 +1642,14 @@ const void *Crypto_DecryptPacket(crypto_t *crypto, const void *data_src, size_t if(memcmp((const unsigned char *) data_src, h, 16)) // ignore first byte, used for length { Con_Printf("HMAC mismatch\n"); - Com_HexDumpToConsole((const unsigned char *) data_src, len_src); + Com_HexDumpToConsole((const unsigned char *) data_src, (int)len_src); return NULL; } } else { Con_Printf("HMAC mismatch\n"); - Com_HexDumpToConsole((const unsigned char *) data_src, len_src); + Com_HexDumpToConsole((const unsigned char *) data_src, (int)len_src); return NULL; } } @@ -1648,12 +1727,12 @@ static int Crypto_ServerParsePacket_Internal(const char *data_in, size_t len_in, return CRYPTO_NOMATCH; // will be later accepted if encryption was set up // validate the challenge for (i = 0;i < MAX_CHALLENGES;i++) - if(challenge[i].time > 0) - if (!LHNETADDRESS_Compare(peeraddress, &challenge[i].address) && !strcmp(challenge[i].string, s)) + if(challenges[i].time > 0) + if (!LHNETADDRESS_Compare(peeraddress, &challenges[i].address) && !strcmp(challenges[i].string, s)) break; // if the challenge is not recognized, drop the packet if (i == MAX_CHALLENGES) // challenge mismatch is silent - return CRYPTO_DISCARD; // pre-challenge: rather be silent + return Crypto_SoftServerError(data_out, len_out, "missing challenge in connect"); crypto = Crypto_ServerFindInstance(peeraddress, false); if(!crypto || !crypto->authenticated) @@ -1668,23 +1747,23 @@ static int Crypto_ServerParsePacket_Internal(const char *data_in, size_t len_in, id = (cnt ? atoi(cnt) : -1); cnt = InfoString_GetValue(string + 4, "cnt", infostringvalue, sizeof(infostringvalue)); if(!cnt) - return CRYPTO_DISCARD; // pre-challenge: rather be silent + return Crypto_SoftServerError(data_out, len_out, "missing cnt in d0pk"); GetUntilNul(&data_in, &len_in); if(!data_in) - return CRYPTO_DISCARD; // pre-challenge: rather be silent + return Crypto_SoftServerError(data_out, len_out, "missing appended data in d0pk"); if(!strcmp(cnt, "0")) { int i; if (!(s = InfoString_GetValue(string + 4, "challenge", infostringvalue, sizeof(infostringvalue)))) - return CRYPTO_DISCARD; // pre-challenge: rather be silent + return Crypto_SoftServerError(data_out, len_out, "missing challenge in d0pk\\0"); // validate the challenge for (i = 0;i < MAX_CHALLENGES;i++) - if(challenge[i].time > 0) - if (!LHNETADDRESS_Compare(peeraddress, &challenge[i].address) && !strcmp(challenge[i].string, s)) + if(challenges[i].time > 0) + if (!LHNETADDRESS_Compare(peeraddress, &challenges[i].address) && !strcmp(challenges[i].string, s)) break; // if the challenge is not recognized, drop the packet - if (i == MAX_CHALLENGES) // challenge mismatch is silent - return CRYPTO_DISCARD; // pre-challenge: rather be silent + if (i == MAX_CHALLENGES) + return Crypto_SoftServerError(data_out, len_out, "invalid challenge in d0pk\\0"); if (!(s = InfoString_GetValue(string + 4, "aeslevel", infostringvalue, sizeof(infostringvalue)))) aeslevel = 0; // not supported @@ -1714,13 +1793,13 @@ static int Crypto_ServerParsePacket_Internal(const char *data_in, size_t len_in, p = GetUntilNul(&data_in, &len_in); if(p && *p) { + // Find the highest numbered matching key for p. for(i = 0; i < MAX_PUBKEYS; ++i) { if(pubkeys[i]) if(!strcmp(p, pubkeys_fp64[i])) if(pubkeys_havepriv[i]) - if(serverid < 0) - serverid = i; + serverid = i; } if(serverid < 0) return Crypto_ServerError(data_out, len_out, "Invalid server key", NULL); @@ -1728,12 +1807,12 @@ static int Crypto_ServerParsePacket_Internal(const char *data_in, size_t len_in, p = GetUntilNul(&data_in, &len_in); if(p && *p) { + // Find the highest numbered matching key for p. for(i = 0; i < MAX_PUBKEYS; ++i) { if(pubkeys[i]) if(!strcmp(p, pubkeys_fp64[i])) - if(clientid < 0) - clientid = i; + clientid = i; } if(clientid < 0) return Crypto_ServerError(data_out, len_out, "Invalid client key", NULL); @@ -1759,6 +1838,7 @@ static int Crypto_ServerParsePacket_Internal(const char *data_in, size_t len_in, // I am the server, and my key is ok... so let's set server_keyfp and server_idfp strlcpy(crypto->server_keyfp, pubkeys_fp64[CDATA->s], sizeof(crypto->server_keyfp)); strlcpy(crypto->server_idfp, pubkeys_priv_fp64[CDATA->s], sizeof(crypto->server_idfp)); + crypto->server_issigned = pubkeys_havesig[CDATA->s]; if(!CDATA->id) CDATA->id = qd0_blind_id_new(); @@ -1899,10 +1979,9 @@ static int Crypto_ServerParsePacket_Internal(const char *data_in, size_t len_in, CLEAR_CDATA; return Crypto_ServerError(data_out, len_out, "d0_blind_id_authenticate_with_private_id_verify failed (authentication error)", "Authentication error"); } - if(status) - strlcpy(crypto->client_keyfp, pubkeys_fp64[CDATA->c], sizeof(crypto->client_keyfp)); - else - crypto->client_keyfp[0] = 0; + strlcpy(crypto->client_keyfp, pubkeys_fp64[CDATA->c], sizeof(crypto->client_keyfp)); + crypto->client_issigned = status; + memset(crypto->client_idfp, 0, sizeof(crypto->client_idfp)); fpbuflen = FP64_SIZE; if(!qd0_blind_id_fingerprint64_public_id(CDATA->id, crypto->client_idfp, &fpbuflen)) @@ -2001,7 +2080,7 @@ static int Crypto_ClientError(char *data_out, size_t *len_out, const char *msg) static int Crypto_SoftClientError(char *data_out, size_t *len_out, const char *msg) { *len_out = 0; - Con_Printf("%s\n", msg); + Con_DPrintf("%s\n", msg); return CRYPTO_DISCARD; } @@ -2025,8 +2104,8 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, if (len_in == 6 && !memcmp(string, "accept", 6) && cls.connect_trying && d0_rijndael_dll) { int wantserverid = -1; - Crypto_RetrieveHostKey(&cls.connect_address, &wantserverid, NULL, 0, NULL, 0, NULL); - if(!crypto || !crypto->authenticated) + Crypto_RetrieveHostKey(&cls.connect_address, &wantserverid, NULL, 0, NULL, 0, NULL, NULL); + if(!crypto || !crypto->authenticated) // we ALSO get here if we are using an encrypted connection, so let's rule this out { if(wantserverid >= 0) return Crypto_ClientError(data_out, len_out, "Server tried an unauthenticated connection even though a host key is present"); @@ -2035,11 +2114,33 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, } return CRYPTO_NOMATCH; } - else if (len_in >= 1 && string[0] == 'j' && cls.connect_trying && d0_rijndael_dll && crypto_aeslevel.integer >= 3) + else if (len_in >= 1 && string[0] == 'j' && cls.connect_trying && d0_rijndael_dll) { int wantserverid = -1; - Crypto_RetrieveHostKey(&cls.connect_address, &wantserverid, NULL, 0, NULL, 0, NULL); - if(!crypto || !crypto->authenticated) + Crypto_RetrieveHostKey(&cls.connect_address, &wantserverid, NULL, 0, NULL, 0, NULL, NULL); + //if(!crypto || !crypto->authenticated) + { + if(wantserverid >= 0) + return Crypto_ClientError(data_out, len_out, "Server tried an unauthenticated connection even though a host key is present"); + if(crypto_aeslevel.integer >= 3) + return Crypto_ClientError(data_out, len_out, "This server requires encryption to be not required (crypto_aeslevel <= 2)"); + } + return CRYPTO_NOMATCH; + } + else if (len_in >= 5 && BuffLittleLong((unsigned char *) string) == ((int)NETFLAG_CTL | (int)len_in)) + { + int wantserverid = -1; + + // these three are harmless + if((unsigned char) string[4] == CCREP_SERVER_INFO) + return CRYPTO_NOMATCH; + if((unsigned char) string[4] == CCREP_PLAYER_INFO) + return CRYPTO_NOMATCH; + if((unsigned char) string[4] == CCREP_RULE_INFO) + return CRYPTO_NOMATCH; + + Crypto_RetrieveHostKey(&cls.connect_address, &wantserverid, NULL, 0, NULL, 0, NULL, NULL); + //if(!crypto || !crypto->authenticated) { if(wantserverid >= 0) return Crypto_ClientError(data_out, len_out, "Server tried an unauthenticated connection even though a host key is present"); @@ -2086,12 +2187,17 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, int clientid = -1, serverid = -1, wantserverid = -1; qboolean server_can_auth = true; char wantserver_idfp[FP64_SIZE+1]; - int wantserver_aeslevel; + int wantserver_aeslevel = 0; + qboolean wantserver_issigned = false; + + // Must check the source IP here, if we want to prevent other servers' replies from falsely advancing the crypto state, preventing successful connect to the real server. + if (net_sourceaddresscheck.integer && LHNETADDRESS_Compare(peeraddress, &cls.connect_address)) + return Crypto_SoftClientError(data_out, len_out, "challenge message from wrong server"); // if we have a stored host key for the server, assume serverid to already be selected! // (the loop will refuse to overwrite this one then) wantserver_idfp[0] = 0; - Crypto_RetrieveHostKey(&cls.connect_address, &wantserverid, NULL, 0, wantserver_idfp, sizeof(wantserver_idfp), &wantserver_aeslevel); + Crypto_RetrieveHostKey(&cls.connect_address, &wantserverid, NULL, 0, wantserver_idfp, sizeof(wantserver_idfp), &wantserver_aeslevel, &wantserver_issigned); // requirement: wantserver_idfp is a full ID if wantserverid set // if we leave, we have to consider the connection @@ -2104,7 +2210,7 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, GetUntilNul(&data_in, &len_in); if(!data_in) return (wantserverid >= 0) ? Crypto_ClientError(data_out, len_out, "Server tried an unauthenticated connection even though a host key is present") : - (d0_rijndael_dll && crypto_aeslevel.integer >= 3) ? Crypto_ServerError(data_out, len_out, "This server requires encryption to be not required (crypto_aeslevel <= 2)", NULL) : + (d0_rijndael_dll && crypto_aeslevel.integer >= 3) ? Crypto_ClientError(data_out, len_out, "This server requires encryption to be not required (crypto_aeslevel <= 2)") : CRYPTO_NOMATCH; // FTEQW extension protocol @@ -2140,7 +2246,7 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, if(!vlen_blind_id_ptr) return (wantserverid >= 0) ? Crypto_ClientError(data_out, len_out, "Server tried an unauthenticated connection even though authentication is required") : - (d0_rijndael_dll && crypto_aeslevel.integer >= 3) ? Crypto_ServerError(data_out, len_out, "This server requires encryption to be not required (crypto_aeslevel <= 2)", NULL) : + (d0_rijndael_dll && crypto_aeslevel.integer >= 3) ? Crypto_ClientError(data_out, len_out, "This server requires encryption to be not required (crypto_aeslevel <= 2)") : CRYPTO_NOMATCH; data_in = vlen_blind_id_ptr; @@ -2164,22 +2270,20 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, break; continue; } + // Find the highest numbered matching key for p. for(i = 0; i < MAX_PUBKEYS; ++i) { if(pubkeys[i]) if(!strcmp(p, pubkeys_fp64[i])) { if(pubkeys_havepriv[i]) - if(clientid < 0) - clientid = i; + clientid = i; if(server_can_auth) - if(serverid < 0) - if(wantserverid < 0 || i == wantserverid) - serverid = i; + if(wantserverid < 0 || i == wantserverid) + serverid = i; } } - if(clientid >= 0 && serverid >= 0) - break; + // Not breaking, as higher keys in the list always have priority. } // if stored host key is not found: @@ -2188,7 +2292,6 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, if(serverid >= 0 || clientid >= 0) { - // TODO at this point, fill clientside crypto struct! MAKE_CDATA; CDATA->cdata_id = ++cdata_id; CDATA->s = serverid; @@ -2200,6 +2303,7 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, crypto->server_keyfp[0] = 0; crypto->server_idfp[0] = 0; memcpy(CDATA->wantserver_idfp, wantserver_idfp, sizeof(crypto->server_idfp)); + CDATA->wantserver_issigned = wantserver_issigned; if(CDATA->wantserver_idfp[0]) // if we know a host key, honor its encryption setting switch(bound(0, d0_rijndael_dll ? crypto_aeslevel.integer : 0, 3)) @@ -2207,7 +2311,7 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, default: // dummy, never happens, but to make gcc happy... case 0: if(wantserver_aeslevel >= 3) - return Crypto_ServerError(data_out, len_out, "This server requires encryption to be not required (crypto_aeslevel <= 2)", NULL); + return Crypto_ClientError(data_out, len_out, "This server requires encryption to be not required (crypto_aeslevel <= 2)"); CDATA->wantserver_aes = false; break; case 1: @@ -2218,7 +2322,7 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, break; case 3: if(wantserver_aeslevel <= 0) - return Crypto_ServerError(data_out, len_out, "This server requires encryption to be supported (crypto_aeslevel >= 1, and d0_rijndael library must be present)", NULL); + return Crypto_ClientError(data_out, len_out, "This server requires encryption to be supported (crypto_aeslevel >= 1, and d0_rijndael library must be present)"); CDATA->wantserver_aes = true; break; } @@ -2234,6 +2338,7 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, // I am the client, and my key is ok... so let's set client_keyfp and client_idfp strlcpy(crypto->client_keyfp, pubkeys_fp64[CDATA->c], sizeof(crypto->client_keyfp)); strlcpy(crypto->client_idfp, pubkeys_priv_fp64[CDATA->c], sizeof(crypto->client_idfp)); + crypto->client_issigned = pubkeys_havesig[CDATA->c]; } if(serverid >= 0) @@ -2253,7 +2358,7 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, CDATA->next_step = 1; *len_out = data_out_p - data_out; } - else if(clientid >= 0) + else // if(clientid >= 0) // guaranteed by condition one level outside { // skip over server auth, perform client auth only if(!CDATA->id) @@ -2277,9 +2382,6 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, data_out_p += *len_out; *len_out = data_out_p - data_out; } - else - *len_out = data_out_p - data_out; - return CRYPTO_DISCARD; } else @@ -2287,7 +2389,7 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, if(wantserver_idfp[0]) // if we know a host key, honor its encryption setting if(wantserver_aeslevel >= 3) return Crypto_ClientError(data_out, len_out, "Server insists on encryption, but neither can authenticate to the other"); - return (d0_rijndael_dll && crypto_aeslevel.integer >= 3) ? Crypto_ServerError(data_out, len_out, "This server requires encryption to be not required (crypto_aeslevel <= 2)", NULL) : + return (d0_rijndael_dll && crypto_aeslevel.integer >= 3) ? Crypto_ClientError(data_out, len_out, "This server requires encryption to be not required (crypto_aeslevel <= 2)") : CRYPTO_NOMATCH; } } @@ -2295,6 +2397,11 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, { const char *cnt; int id; + + // Must check the source IP here, if we want to prevent other servers' replies from falsely advancing the crypto state, preventing successful connect to the real server. + if (net_sourceaddresscheck.integer && LHNETADDRESS_Compare(peeraddress, &cls.connect_address)) + return Crypto_SoftClientError(data_out, len_out, "d0pk\\ message from wrong server"); + cnt = InfoString_GetValue(string + 4, "id", infostringvalue, sizeof(infostringvalue)); id = (cnt ? atoi(cnt) : -1); cnt = InfoString_GetValue(string + 4, "cnt", infostringvalue, sizeof(infostringvalue)); @@ -2308,7 +2415,7 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, { if(id >= 0) if(CDATA->cdata_id != id) - return Crypto_SoftServerError(data_out, len_out, va(vabuf, sizeof(vabuf), "Got d0pk\\id\\%d when expecting %d", id, CDATA->cdata_id)); + return Crypto_SoftClientError(data_out, len_out, va(vabuf, sizeof(vabuf), "Got d0pk\\id\\%d when expecting %d", id, CDATA->cdata_id)); if(CDATA->next_step != 1) return Crypto_SoftClientError(data_out, len_out, va(vabuf, sizeof(vabuf), "Got d0pk\\cnt\\%s when expecting %d", cnt, CDATA->next_step)); @@ -2357,7 +2464,7 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, if(id >= 0) if(CDATA->cdata_id != id) - return Crypto_SoftServerError(data_out, len_out, va(vabuf, sizeof(vabuf), "Got d0pk\\id\\%d when expecting %d", id, CDATA->cdata_id)); + return Crypto_SoftClientError(data_out, len_out, va(vabuf, sizeof(vabuf), "Got d0pk\\id\\%d when expecting %d", id, CDATA->cdata_id)); if(CDATA->next_step != 3) return Crypto_SoftClientError(data_out, len_out, va(vabuf, sizeof(vabuf), "Got d0pk\\cnt\\%s when expecting %d", cnt, CDATA->next_step)); @@ -2368,10 +2475,15 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, CLEAR_CDATA; return Crypto_ClientError(data_out, len_out, "d0_blind_id_authenticate_with_private_id_verify failed (server authentication error)"); } - if(status) - strlcpy(crypto->server_keyfp, pubkeys_fp64[CDATA->s], sizeof(crypto->server_keyfp)); - else - crypto->server_keyfp[0] = 0; + + strlcpy(crypto->server_keyfp, pubkeys_fp64[CDATA->s], sizeof(crypto->server_keyfp)); + if (!status && CDATA->wantserver_issigned) + { + CLEAR_CDATA; + return Crypto_ClientError(data_out, len_out, "Stored host key requires a valid signature, but server did not provide any"); + } + crypto->server_issigned = status; + memset(crypto->server_idfp, 0, sizeof(crypto->server_idfp)); fpbuflen = FP64_SIZE; if(!qd0_blind_id_fingerprint64_public_id(CDATA->id, crypto->server_idfp, &fpbuflen)) @@ -2393,7 +2505,7 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, } // cache the server key - Crypto_StoreHostKey(&cls.connect_address, va(vabuf, sizeof(vabuf), "%d %s@%s", crypto->use_aes ? 1 : 0, crypto->server_idfp, pubkeys_fp64[CDATA->s]), false); + Crypto_StoreHostKey(&cls.connect_address, va(vabuf, sizeof(vabuf), "%d %s@%s%s", crypto->use_aes ? 1 : 0, crypto->server_idfp, crypto->server_issigned ? "" : "~", pubkeys_fp64[CDATA->s]), false); if(CDATA->c >= 0) { @@ -2434,7 +2546,7 @@ int Crypto_ClientParsePacket(const char *data_in, size_t len_in, char *data_out, if(id >= 0) if(CDATA->cdata_id != id) - return Crypto_SoftServerError(data_out, len_out, va(vabuf, sizeof(vabuf), "Got d0pk\\id\\%d when expecting %d", id, CDATA->cdata_id)); + return Crypto_SoftClientError(data_out, len_out, va(vabuf, sizeof(vabuf), "Got d0pk\\id\\%d when expecting %d", id, CDATA->cdata_id)); if(CDATA->next_step != 5) return Crypto_SoftClientError(data_out, len_out, va(vabuf, sizeof(vabuf), "Got d0pk\\cnt\\%s when expecting %d", cnt, CDATA->next_step));