#define TRACE_MODULE _types #include "core_debug.h" #include "core_lib.h" #include "types.h" #define PLMN_ID_DIGIT1(x) (((x) / 100) % 10) #define PLMN_ID_DIGIT2(x) (((x) / 10) % 10) #define PLMN_ID_DIGIT3(x) ((x) % 10) c_uint16_t plmn_id_mcc(plmn_id_t *plmn_id) { return plmn_id->mcc1 * 100 + plmn_id->mcc2 * 10 + plmn_id->mcc3; } c_uint16_t plmn_id_mnc(plmn_id_t *plmn_id) { return plmn_id->mnc1 == 0xf ? plmn_id->mnc2 * 10 + plmn_id->mnc3 : plmn_id->mnc1 * 100 + plmn_id->mnc2 * 10 + plmn_id->mnc3; } c_uint16_t plmn_id_mnc_len(plmn_id_t *plmn_id) { return plmn_id->mnc1 == 0xf ? 2 : 3; } void *plmn_id_build(plmn_id_t *plmn_id, c_uint16_t mcc, c_uint16_t mnc, c_uint16_t mnc_len) { plmn_id->mcc1 = PLMN_ID_DIGIT1(mcc); plmn_id->mcc2 = PLMN_ID_DIGIT2(mcc); plmn_id->mcc3 = PLMN_ID_DIGIT3(mcc); if (mnc_len == 2) plmn_id->mnc1 = 0xf; else plmn_id->mnc1 = PLMN_ID_DIGIT1(mnc); plmn_id->mnc2 = PLMN_ID_DIGIT2(mnc); plmn_id->mnc3 = PLMN_ID_DIGIT3(mnc); return plmn_id; } c_int16_t apn_build(c_int8_t *dst, c_int8_t *src, c_int16_t length) { int i = 0, j = 0; for (i = 0, j = 0; i < length; i++, j++) { if (src[i] == '.') { dst[i-j] = j; j = -1; } else { dst[i+1] = src[i]; } } dst[i-j] = j; return length+1; } c_int16_t apn_parse(c_int8_t *dst, c_int8_t *src, c_int16_t length) { int i = 0, j = 0; c_uint8_t len = 0; do { len = src[i++]; memcpy(&dst[j], &src[i], len); i += len; j += len; if (i < length) dst[j++] = '.'; else dst[j] = 0; } while(i < length); return j; } /* 8.13 Protocol Configuration Options (PCO) * 10.5.6.3 Protocol configuration options in 3GPP TS 24.008 */ c_int16_t pco_parse(pco_t *pco, void *data, int data_len) { pco_t *source = (pco_t *)data; c_int16_t size = 0; int i = 0; d_assert(pco, return -1, "Null param"); d_assert(data, return -1, "Null param"); d_assert(data_len, return -1, "Null param"); memset(pco, 0, sizeof(pco_t)); pco->ext = source->ext; pco->configuration_protocol = source->configuration_protocol; size++; while(size < data_len && i < MAX_NUM_OF_PROTOCOL_OR_CONTAINER_ID) { pco_id_t *id = &pco->ids[i]; d_assert(size + sizeof(id->id) <= data_len, return -1, "decode error"); memcpy(&id->id, data + size, sizeof(id->id)); id->id = ntohs(id->id); size += sizeof(id->id); d_assert(size + sizeof(id->len) <= data_len, return -1, "decode error"); memcpy(&id->len, data + size, sizeof(id->len)); size += sizeof(id->len); id->data = data + size; size += id->len; i++; } pco->num_of_id = i; d_assert(size == data_len, return -1, "decode error(%d != %d)", size, data_len); return size; } c_int16_t pco_build(void *data, int data_len, pco_t *pco) { pco_t target; c_int16_t size = 0; int i = 0; d_assert(pco, return -1, "Null param"); d_assert(data, return -1, "Null param"); d_assert(data_len, return -1, "Null param"); memcpy(&target, pco, sizeof(pco_t)); d_assert(size + 1 <= data_len, return -1, "encode error"); memcpy(data + size, &target, 1); size += 1; d_assert(target.num_of_id <= MAX_NUM_OF_PROTOCOL_OR_CONTAINER_ID, return -1, "encode error"); for (i = 0; i < target.num_of_id; i++) { pco_id_t *id = &target.ids[i]; d_assert(size + sizeof(id->id) <= data_len, return -1, "encode error"); id->id = htons(id->id); memcpy(data + size, &id->id, sizeof(id->id)); size += sizeof(id->id); d_assert(size + sizeof(id->len) <= data_len, return -1, "encode error"); memcpy(data + size, &id->len, sizeof(id->len)); size += sizeof(id->len); d_assert(size + id->len <= data_len, return -1, "encode error"); memcpy(data + size, id->data, id->len); size += id->len; } return size; }