static int parse_msg(char *tbuf, char **ndx, int *t_size, fko_ctx_t ctx) { if((*t_size = strcspn(*ndx, ":")) < 1) return(FKO_ERROR_INVALID_DATA_DECODE_MESSAGE_MISSING); if (*t_size > MAX_SPA_MESSAGE_SIZE) return(FKO_ERROR_INVALID_DATA_DECODE_MESSAGE_TOOBIG); strlcpy(tbuf, *ndx, *t_size+1); if(ctx->message != NULL) free(ctx->message); ctx->message = calloc(1, *t_size+1); /* Yes, more than we need */ if(ctx->message == NULL) return(FKO_ERROR_MEMORY_ALLOCATION); if(b64_decode(tbuf, (unsigned char*)ctx->message) < 0) return(FKO_ERROR_INVALID_DATA_DECODE_MESSAGE_DECODEFAIL); if(ctx->message_type == FKO_COMMAND_MSG) { /* Require a message similar to: 1.2.3.4,<command> */ if(validate_cmd_msg(ctx->message) != FKO_SUCCESS) { return(FKO_ERROR_INVALID_DATA_DECODE_MESSAGE_VALIDFAIL); } } else { /* Require a message similar to: 1.2.3.4,tcp/22 */ if(validate_access_msg(ctx->message) != FKO_SUCCESS) { return(FKO_ERROR_INVALID_DATA_DECODE_ACCESS_VALIDFAIL); } } *ndx += *t_size + 1; return FKO_SUCCESS; }
/* Decode the encoded SPA data. */ int fko_decode_spa_data(fko_ctx_t ctx) { char *tbuf, *ndx, *tmp; int t_size, i, is_err; if (! is_valid_encoded_msg_len(ctx->encoded_msg_len)) return(FKO_ERROR_INVALID_DATA_DECODE_MSGLEN_VALIDFAIL); /* Make sure there are no non-ascii printable chars */ for (i=0; i < (int)strnlen(ctx->encoded_msg, MAX_SPA_ENCODED_MSG_SIZE); i++) if(isprint(ctx->encoded_msg[i]) == 0) return(FKO_ERROR_INVALID_DATA_DECODE_NON_ASCII); /* Make sure there are enough fields in the SPA packet * delimited with ':' chars */ ndx = ctx->encoded_msg; for (i=0; i < MAX_SPA_FIELDS; i++) { if ((tmp = strchr(ndx, ':')) == NULL) break; ndx = tmp; ndx++; } if (i < MIN_SPA_FIELDS) return(FKO_ERROR_INVALID_DATA_DECODE_LT_MIN_FIELDS); t_size = strnlen(ndx, SHA512_B64_LEN+1); switch(t_size) { case MD5_B64_LEN: ctx->digest_type = FKO_DIGEST_MD5; ctx->digest_len = MD5_B64_LEN; break; case SHA1_B64_LEN: ctx->digest_type = FKO_DIGEST_SHA1; ctx->digest_len = SHA1_B64_LEN; break; case SHA256_B64_LEN: ctx->digest_type = FKO_DIGEST_SHA256; ctx->digest_len = SHA256_B64_LEN; break; case SHA384_B64_LEN: ctx->digest_type = FKO_DIGEST_SHA384; ctx->digest_len = SHA384_B64_LEN; break; case SHA512_B64_LEN: ctx->digest_type = FKO_DIGEST_SHA512; ctx->digest_len = SHA512_B64_LEN; break; default: /* Invalid or unsupported digest */ return(FKO_ERROR_INVALID_DIGEST_TYPE); } if (ctx->encoded_msg_len - t_size < 0) return(FKO_ERROR_INVALID_DATA_DECODE_ENC_MSG_LEN_MT_T_SIZE); if(ctx->digest != NULL) free(ctx->digest); /* Copy the digest into the context and terminate the encoded data * at that point so the original digest is not part of the * encoded string. */ ctx->digest = strdup(ndx); if(ctx->digest == NULL) return(FKO_ERROR_MEMORY_ALLOCATION); /* Zero out the rest of the encoded_msg bucket... */ bzero((ndx-1), t_size); ctx->encoded_msg_len -= t_size+1; /* Make a tmp bucket for processing base64 encoded data and * other general use. */ tbuf = malloc(FKO_ENCODE_TMP_BUF_SIZE); if(tbuf == NULL) return(FKO_ERROR_MEMORY_ALLOCATION); /* Can now verify the digest. */ switch(ctx->digest_type) { case FKO_DIGEST_MD5: md5_base64(tbuf, (unsigned char*)ctx->encoded_msg, ctx->encoded_msg_len); break; case FKO_DIGEST_SHA1: sha1_base64(tbuf, (unsigned char*)ctx->encoded_msg, ctx->encoded_msg_len); break; case FKO_DIGEST_SHA256: sha256_base64(tbuf, (unsigned char*)ctx->encoded_msg, ctx->encoded_msg_len); break; case FKO_DIGEST_SHA384: sha384_base64(tbuf, (unsigned char*)ctx->encoded_msg, ctx->encoded_msg_len); break; case FKO_DIGEST_SHA512: sha512_base64(tbuf, (unsigned char*)ctx->encoded_msg, ctx->encoded_msg_len); break; } /* We give up here if the computed digest does not match the * digest in the message data. */ if(constant_runtime_cmp(ctx->digest, tbuf, t_size) != 0) { free(tbuf); return(FKO_ERROR_DIGEST_VERIFICATION_FAILED); } /* Now we will work through the encoded data and extract (and base64- * decode where necessary), the SPA data fields and populate the context. */ ndx = ctx->encoded_msg; /* The rand val data */ if((t_size = strcspn(ndx, ":")) < FKO_RAND_VAL_SIZE) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_RAND_MISSING); } if(ctx->rand_val != NULL) free(ctx->rand_val); ctx->rand_val = calloc(1, FKO_RAND_VAL_SIZE+1); if(ctx->rand_val == NULL) { free(tbuf); return(FKO_ERROR_MEMORY_ALLOCATION); } ctx->rand_val = strncpy(ctx->rand_val, ndx, FKO_RAND_VAL_SIZE); /* Jump to the next field (username). We need to use the temp buffer * for the base64 decode step. */ ndx += t_size + 1; if((t_size = strcspn(ndx, ":")) < 1) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_USERNAME_MISSING); } if (t_size > MAX_SPA_USERNAME_SIZE) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_USERNAME_TOOBIG); } strlcpy(tbuf, ndx, t_size+1); if(ctx->username != NULL) free(ctx->username); ctx->username = malloc(t_size+1); /* Yes, more than we need */ if(ctx->username == NULL) { free(tbuf); return(FKO_ERROR_MEMORY_ALLOCATION); } if(b64_decode(tbuf, (unsigned char*)ctx->username) < 0) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_USERNAME_DECODEFAIL); } if(validate_username(ctx->username) != FKO_SUCCESS) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_USERNAME_VALIDFAIL); } /* Extract the timestamp value. */ ndx += t_size + 1; if((t_size = strcspn(ndx, ":")) < 1) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_TIMESTAMP_MISSING); } if (t_size > MAX_SPA_TIMESTAMP_SIZE) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_TIMESTAMP_TOOBIG); } strlcpy(tbuf, ndx, t_size+1); ctx->timestamp = (unsigned int) strtol_wrapper(tbuf, 0, -1, NO_EXIT_UPON_ERR, &is_err); if(is_err != FKO_SUCCESS) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_TIMESTAMP_DECODEFAIL); } /* Extract the version string. */ ndx += t_size + 1; if((t_size = strcspn(ndx, ":")) < 1) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_VERSION_MISSING); } if (t_size > MAX_SPA_VERSION_SIZE) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_VERSION_TOOBIG); } if(ctx->version != NULL) free(ctx->version); ctx->version = malloc(t_size+1); if(ctx->version == NULL) { free(tbuf); return(FKO_ERROR_MEMORY_ALLOCATION); } strlcpy(ctx->version, ndx, t_size+1); /* Extract the message type value. */ ndx += t_size + 1; if((t_size = strcspn(ndx, ":")) < 1) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_MSGTYPE_MISSING); } if (t_size > MAX_SPA_MESSAGE_TYPE_SIZE) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_MSGTYPE_TOOBIG); } strlcpy(tbuf, ndx, t_size+1); ctx->message_type = strtol_wrapper(tbuf, 0, FKO_LAST_MSG_TYPE, NO_EXIT_UPON_ERR, &is_err); if(is_err != FKO_SUCCESS) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_MSGTYPE_DECODEFAIL); } /* Extract the SPA message string. */ ndx += t_size + 1; if((t_size = strcspn(ndx, ":")) < 1) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_MESSAGE_MISSING); } if (t_size > MAX_SPA_MESSAGE_SIZE) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_MESSAGE_TOOBIG); } strlcpy(tbuf, ndx, t_size+1); if(ctx->message != NULL) free(ctx->message); ctx->message = malloc(t_size+1); /* Yes, more than we need */ if(ctx->message == NULL) { free(tbuf); return(FKO_ERROR_MEMORY_ALLOCATION); } if(b64_decode(tbuf, (unsigned char*)ctx->message) < 0) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_MESSAGE_DECODEFAIL); } if(ctx->message_type == FKO_COMMAND_MSG) { /* Require a message similar to: 1.2.3.4,<command> */ if(validate_cmd_msg(ctx->message) != FKO_SUCCESS) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_MESSAGE_VALIDFAIL); } } else { /* Require a message similar to: 1.2.3.4,tcp/22 */ if(validate_access_msg(ctx->message) != FKO_SUCCESS) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_ACCESS_VALIDFAIL); } } /* Extract nat_access string if the message_type indicates so. */ if( ctx->message_type == FKO_NAT_ACCESS_MSG || ctx->message_type == FKO_LOCAL_NAT_ACCESS_MSG || ctx->message_type == FKO_CLIENT_TIMEOUT_NAT_ACCESS_MSG || ctx->message_type == FKO_CLIENT_TIMEOUT_LOCAL_NAT_ACCESS_MSG) { ndx += t_size + 1; if((t_size = strcspn(ndx, ":")) < 1) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_NATACCESS_MISSING); } if (t_size > MAX_SPA_MESSAGE_SIZE) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_NATACCESS_TOOBIG); } strlcpy(tbuf, ndx, t_size+1); if(ctx->nat_access != NULL) free(ctx->nat_access); ctx->nat_access = malloc(t_size+1); /* Yes, more than we need */ if(ctx->nat_access == NULL) { free(tbuf); return(FKO_ERROR_MEMORY_ALLOCATION); } if(b64_decode(tbuf, (unsigned char*)ctx->nat_access) < 0) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_NATACCESS_DECODEFAIL); } if(validate_nat_access_msg(ctx->nat_access) != FKO_SUCCESS) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_NATACCESS_VALIDFAIL); } } /* Now look for a server_auth string. */ ndx += t_size + 1; if((t_size = strlen(ndx)) > 0) { if (t_size > MAX_SPA_MESSAGE_SIZE) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_SRVAUTH_MISSING); } /* There is data, but what is it? * If the message_type does not have a timeout, assume it is a * server_auth field. */ if( ctx->message_type != FKO_CLIENT_TIMEOUT_ACCESS_MSG && ctx->message_type != FKO_CLIENT_TIMEOUT_NAT_ACCESS_MSG && ctx->message_type != FKO_CLIENT_TIMEOUT_LOCAL_NAT_ACCESS_MSG) { strlcpy(tbuf, ndx, t_size+1); if(ctx->server_auth != NULL) free(ctx->server_auth); ctx->server_auth = malloc(t_size+1); /* Yes, more than we need */ if(ctx->server_auth == NULL) { free(tbuf); return(FKO_ERROR_MEMORY_ALLOCATION); } if(b64_decode(tbuf, (unsigned char*)ctx->server_auth) < 0) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_SRVAUTH_DECODEFAIL); } /* At this point we should be done. */ free(tbuf); /* Call the context initialized. */ ctx->initval = FKO_CTX_INITIALIZED; FKO_SET_CTX_INITIALIZED(ctx); return(FKO_SUCCESS); } /* If we are here then we may still have a server_auth string, * or a timeout, or both. So we look for a ':' delimiter. If * it is there we have both, if not we check the message_type * again. */ if(strchr(ndx, ':')) { t_size = strcspn(ndx, ":"); if (t_size > MAX_SPA_MESSAGE_SIZE) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_EXTRA_TOOBIG); } /* Looks like we have both, so assume this is the */ strlcpy(tbuf, ndx, t_size+1); if(ctx->server_auth != NULL) free(ctx->server_auth); ctx->server_auth = malloc(t_size+1); /* Yes, more than we need */ if(ctx->server_auth == NULL) { free(tbuf); return(FKO_ERROR_MEMORY_ALLOCATION); } if(b64_decode(tbuf, (unsigned char*)ctx->server_auth) < 0) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_EXTRA_DECODEFAIL); } ndx += t_size + 1; } /* Now we look for a timeout value if one is supposed to be there. */ if( ctx->message_type == FKO_CLIENT_TIMEOUT_ACCESS_MSG || ctx->message_type == FKO_CLIENT_TIMEOUT_NAT_ACCESS_MSG || ctx->message_type == FKO_CLIENT_TIMEOUT_LOCAL_NAT_ACCESS_MSG) { if((t_size = strlen(ndx)) < 1) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_TIMEOUT_MISSING); } if (t_size > MAX_SPA_MESSAGE_SIZE) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_TIMEOUT_TOOBIG); } /* Should be a number only. */ if(strspn(ndx, "0123456789") != t_size) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_TIMEOUT_VALIDFAIL); } ctx->client_timeout = (unsigned int) strtol_wrapper(ndx, 0, (2 << 15), NO_EXIT_UPON_ERR, &is_err); if(is_err != FKO_SUCCESS) { free(tbuf); return(FKO_ERROR_INVALID_DATA_DECODE_TIMEOUT_DECODEFAIL); } } } /* Done with the tmp buffer. */ free(tbuf); /* Call the context initialized. */ ctx->initval = FKO_CTX_INITIALIZED; FKO_SET_CTX_INITIALIZED(ctx); return(FKO_SUCCESS); }