rdtech-dps: Use big endian register access for DPS devices
[libsigrok.git] / src / hardware / rdtech-dps / protocol.c
index 9ce2eb66e3a855337dc63f0bed452ba165f511f1..83090d86ac7c2253c6662a305b7beab10015df67 100644 (file)
@@ -132,7 +132,7 @@ static int rdtech_dps_set_reg(const struct sr_dev_inst *sdi,
        modbus = sdi->conn;
 
        wrptr = (void *)registers;
-       write_u16le(wrptr, value);
+       write_u16be(wrptr, value);
 
        g_mutex_lock(&devc->rw_mutex);
        ret = sr_modbus_write_multiple_registers(modbus, address,
@@ -187,8 +187,8 @@ SR_PRIV int rdtech_dps_get_model_version(struct sr_modbus_dev_inst *modbus,
                if (ret != SR_OK)
                        return ret;
                rdptr = (void *)registers;
-               *model = read_u16le_inc(&rdptr);
-               *version = read_u16le_inc(&rdptr);
+               *model = read_u16be_inc(&rdptr);
+               *version = read_u16be_inc(&rdptr);
                *serno = 0;
                sr_info("RDTech DPS/DPH model: %u version: %u",
                        *model, *version);
@@ -327,25 +327,25 @@ SR_PRIV int rdtech_dps_get_state(const struct sr_dev_inst *sdi,
 
                /* Interpret the registers' values. */
                rdptr = (const void *)registers;
-               uset_raw = read_u16le_inc(&rdptr);
+               uset_raw = read_u16be_inc(&rdptr);
                volt_target = uset_raw / devc->voltage_multiplier;
-               iset_raw = read_u16le_inc(&rdptr);
+               iset_raw = read_u16be_inc(&rdptr);
                curr_limit = iset_raw / devc->current_multiplier;
-               uout_raw = read_u16le_inc(&rdptr);
+               uout_raw = read_u16be_inc(&rdptr);
                curr_voltage = uout_raw / devc->voltage_multiplier;
-               iout_raw = read_u16le_inc(&rdptr);
+               iout_raw = read_u16be_inc(&rdptr);
                curr_current = iout_raw / devc->current_multiplier;
-               power_raw = read_u16le_inc(&rdptr);
+               power_raw = read_u16be_inc(&rdptr);
                curr_power = power_raw / 100.0f;
-               (void)read_u16le_inc(&rdptr); /* UIN */
-               reg_val = read_u16le_inc(&rdptr); /* LOCK */
+               (void)read_u16be_inc(&rdptr); /* UIN */
+               reg_val = read_u16be_inc(&rdptr); /* LOCK */
                is_lock = reg_val != 0;
-               reg_val = read_u16le_inc(&rdptr); /* PROTECT */
+               reg_val = read_u16be_inc(&rdptr); /* PROTECT */
                uses_ovp = reg_val == STATE_OVP;
                uses_ocp = reg_val == STATE_OCP;
-               reg_state = read_u16le_inc(&rdptr); /* CV_CC */
+               reg_state = read_u16be_inc(&rdptr); /* CV_CC */
                is_reg_cc = reg_state == MODE_CC;
-               out_state = read_u16le_inc(&rdptr); /* ENABLE */
+               out_state = read_u16be_inc(&rdptr); /* ENABLE */
                is_out_enabled = out_state != 0;
 
                /* Transfer another chunk of registers in a single call. */
@@ -358,9 +358,9 @@ SR_PRIV int rdtech_dps_get_state(const struct sr_dev_inst *sdi,
 
                /* Interpret the second registers chunk's values. */
                rdptr = (const void *)registers;
-               ovpset_raw = read_u16le_inc(&rdptr); /* PRE OVPSET */
+               ovpset_raw = read_u16be_inc(&rdptr); /* PRE OVPSET */
                ovp_threshold = ovpset_raw * devc->voltage_multiplier;
-               ocpset_raw = read_u16le_inc(&rdptr); /* PRE OCPSET */
+               ocpset_raw = read_u16be_inc(&rdptr); /* PRE OCPSET */
                ocp_threshold = ocpset_raw * devc->current_multiplier;
 
                break;