Resolve merge conflicts

src/hardware.c

@@ -1772,3 +1772,182 @@ uint8_t check_uart_loopback() {
     }
 }
 #endif
+
+#ifdef USE_USB_DET
+typedef void (*reset_mcu_ptr)(void);
+reset_mcu_ptr reset_mcu = (reset_mcu_ptr)0x0000;
+
+void usb_det_task() {
+    if (USB_DET == 1) {
+        LED_BLUE_OFF;
+        WriteReg(0, 0x8F, 0x10); // reset RF_chip
+        while (USB_DET == 1) {
+            WAIT(1);
+        }
+        // reset 5680
+        reset_mcu();
+    }
+}
+#endif
+
+#if (0)
+void _outstring(char *string) {
+    uint8_t i = 0;
+    for (i = 0; i < 128; i++) {
+        if (string[i] == 0)
+            break;
+        else
+            _outchar(string[i]);
+    }
+}
+#endif
+void check_eeprom() {
+    const uint8_t tab_base_address[3] = {
+        EEP_ADDR_TAB1,
+        EEP_ADDR_TAB2,
+        EEP_ADDR_TAB3,
+    };
+    const uint8_t dcoc_base_address[3] = {
+        EEP_ADDR_DCOC1,
+        EEP_ADDR_DCOC2,
+        EEP_ADDR_DCOC3,
+    };
+    const uint8_t tab_range[2] = {20, 160};
+    const uint8_t dcoc_range[2] = {80, 180};
+
+    uint8_t tab_list[3][FREQ_NUM_INTERNAL][POWER_MAX + 1];
+    uint8_t dcoc_list[3][5];
+    uint8_t ff_cnt[3];
+    uint8_t i, j, k;
+
+    // read all 3 table_power partitions
+    for (i = 0; i < 3; i++) {
+        ff_cnt[i] = 0;
+        for (j = 0; j < FREQ_NUM_INTERNAL; j++) {
+            for (k = 0; k < POWER_MAX + 1; k++) {
+                tab_list[i][j][k] = I2C_Read8(ADDR_EEPROM, tab_base_address[i] + j * (POWER_MAX + 1) + k);
+                ff_cnt[i] += (tab_list[i][j][k] == 0xff);
+            }
+        }
+    }
+
+#if (0)
+    // If eeprom is new, init partition 0 with default table_power
+    if (ff_cnt[0] == (FREQ_NUM_INTERNAL * (POWER_MAX + 1))) {
+        for (j = 0; j < FREQ_NUM_INTERNAL; j++) {
+            for (k = 0; k < POWER_MAX + 1; k++) {
+                I2C_Write8_Wait(10, ADDR_EEPROM, tab_base_address[0] + j * (POWER_MAX + 1) + k, table_power[j][k]);
+            }
+        }
+        _outstring("\r\nInit tab partition 0");
+    }
+#endif
+
+    // Init partition 1/2 by copy paratition 0 if is needed (one time)
+    if ((ff_cnt[1] + ff_cnt[2]) > (FREQ_NUM_INTERNAL * (POWER_MAX + 1))) {
+        for (i = 1; i < 3; i++) {
+            for (j = 0; j < FREQ_NUM_INTERNAL; j++) {
+                for (k = 0; k < POWER_MAX + 1; k++) {
+                    I2C_Write8_Wait(10, ADDR_EEPROM, tab_base_address[i] + j * (POWER_MAX + 1) + k, tab_list[0][j][k]);
+                    tab_list[i][j][k] = tab_list[0][j][k];
+                }
+            }
+        }
+        //_outstring("\r\nInit tab partition 1, 2");
+    }
+
+    // Check the validity of each value
+    for (i = 0; i < FREQ_NUM_INTERNAL; i++) {
+        for (j = 0; j < POWER_MAX + 1; j++) {
+            if (tab_list[0][i][j] == tab_list[1][i][j] && tab_list[1][i][j] == tab_list[2][i][j] && tab_list[0][i][j] > tab_range[0] && tab_list[0][i][j] < tab_range[1])
+                // all partition are right
+                ;
+            else if (tab_list[0][i][j] == tab_list[1][i][j] && tab_list[1][i][j] != tab_list[2][i][j] && tab_list[0][i][j] > tab_range[0] && tab_list[0][i][j] < tab_range[1]) {
+                // partition 2 value is error
+                I2C_Write8_Wait(10, ADDR_EEPROM, tab_base_address[2] + i * (POWER_MAX + 1) + j, tab_list[0][i][j]);
+                //_outstring("\r\ntab2:");
+                // _outchar('0' + i);
+                //_outchar('0' + j);
+            } else if (tab_list[0][i][j] == tab_list[2][i][j] && tab_list[1][i][j] != tab_list[2][i][j] && tab_list[0][i][j] > tab_range[0] && tab_list[0][i][j] < tab_range[1]) {
+                // partition 1 value is error
+                I2C_Write8_Wait(10, ADDR_EEPROM, tab_base_address[1] + i * (POWER_MAX + 1) + j, tab_list[0][i][j]);
+                //_outstring("\r\ntab1:");
+                //_outchar('0' + i);
+                //_outchar('0' + j);
+            } else if (tab_list[0][i][j] != tab_list[2][i][j] && tab_list[1][i][j] == tab_list[2][i][j] && tab_list[1][i][j] > tab_range[0] && tab_list[1][i][j] < tab_range[1]) {
+                // partition 0 value is error
+                I2C_Write8_Wait(10, ADDR_EEPROM, tab_base_address[0] + i * (POWER_MAX + 1) + j, tab_list[1][i][j]);
+                //_outstring("\r\ntab0:");
+                //_outchar('0' + i);
+                //_outchar('0' + j);
+            } else {
+                I2C_Write8_Wait(10, ADDR_EEPROM, tab_base_address[0] + i * (POWER_MAX + 1) + j, table_power[i][j]);
+                I2C_Write8_Wait(10, ADDR_EEPROM, tab_base_address[1] + i * (POWER_MAX + 1) + j, table_power[i][j]);
+                I2C_Write8_Wait(10, ADDR_EEPROM, tab_base_address[2] + i * (POWER_MAX + 1) + j, table_power[i][j]);
+                //_outstring("\r\n        tab all:");
+                //_outchar('0' + i);
+                //_outchar('0' + j);
+            }
+        }
+    }
+
+    // read all 3 dcoc partitions
+    for (i = 0; i < 3; i++) {
+        ff_cnt[i] = 0;
+        for (j = 0; j < 5; j++) {
+            dcoc_list[i][j] = I2C_Read8(ADDR_EEPROM, dcoc_base_address[i] + j);
+            ff_cnt[i] += (dcoc_list[i][j] == 0xff);
+        }
+    }
+
+    if (ff_cnt[0] == 3)
+        return;
+    // Init partition 1/2 by copy paratition 0 if is needed (one time)
+    if ((ff_cnt[1] + ff_cnt[2]) > 5) {
+        for (i = 1; i < 3; i++) {
+            for (j = 0; j < 5; j++) {
+                I2C_Write8_Wait(10, ADDR_EEPROM, dcoc_base_address[i] + j, dcoc_list[0][j]);
+                dcoc_list[i][j] = dcoc_list[0][j];
+            }
+        }
+        //_outstring("\r\nInit dcoc partition 1, 2");
+    }
+
+    // Check the validity of each value
+    if (dcoc_list[0][0] == dcoc_list[1][0] && dcoc_list[1][0] == dcoc_list[2][0] && dcoc_list[0][0] == 0x00) {
+        ;
+    } else {
+        I2C_Write8_Wait(10, ADDR_EEPROM, dcoc_base_address[0], 0);
+        I2C_Write8_Wait(10, ADDR_EEPROM, dcoc_base_address[1], 0);
+        I2C_Write8_Wait(10, ADDR_EEPROM, dcoc_base_address[2], 0);
+        //_outstring("\r\ndcoc en err");
+    }
+
+    for (i = 1; i < 5; i++) {
+        if (dcoc_list[0][i] == dcoc_list[1][i] && dcoc_list[1][i] == dcoc_list[2][i] && dcoc_list[0][i] > dcoc_range[0] && dcoc_list[0][i] < dcoc_range[1])
+            // all partition are right
+            ;
+        else if (dcoc_list[0][i] == dcoc_list[1][i] && dcoc_list[1][i] != dcoc_list[2][i] && dcoc_list[0][i] > dcoc_range[0] && dcoc_list[0][i] < dcoc_range[1]) {
+            // partition 2 value is error
+            I2C_Write8_Wait(10, ADDR_EEPROM, dcoc_base_address[2] + i, dcoc_list[0][i]);
+            //_outstring("\r\ndcoc2:");
+            //_outchar('0' + i);
+        } else if (dcoc_list[0][i] != dcoc_list[1][i] && dcoc_list[1][i] == dcoc_list[2][i] && dcoc_list[1][i] > dcoc_range[0] && dcoc_list[1][i] < dcoc_range[1]) {
+            // partition 0 value is error
+            I2C_Write8_Wait(10, ADDR_EEPROM, dcoc_base_address[0] + i, dcoc_list[1][i]);
+            //_outstring("\r\ndcoc0:");
+            //_outchar('0' + i);
+        } else if (dcoc_list[0][i] != dcoc_list[1][i] && dcoc_list[0][i] == dcoc_list[2][i] && dcoc_list[0][i] > dcoc_range[0] && dcoc_list[0][i] < dcoc_range[1]) {
+            // partition 1 value is error
+            I2C_Write8_Wait(10, ADDR_EEPROM, dcoc_base_address[1] + i, dcoc_list[0][i]);
+            //_outstring("\r\ndcoc1:");
+            //_outchar('0' + i);
+        } else {
+            I2C_Write8_Wait(10, ADDR_EEPROM, dcoc_base_address[0] + i, 128);
+            I2C_Write8_Wait(10, ADDR_EEPROM, dcoc_base_address[1] + i, 128);
+            I2C_Write8_Wait(10, ADDR_EEPROM, dcoc_base_address[2] + i, 128);
+            //_outstring("\r\ndcoc all:");
+            //_outchar('0' + i);
+        }
+    }
+}