3

I started the following code to handle a Bosch BME280 sensor with a Nucleo-F446ZE and a Nucleo-F411RE boards.

with STM32.Device; use STM32.Device;
with STM32.GPIO; use STM32.GPIO;
with STM32; use STM32;
with STM32.I2C;

with HAL.I2C; use HAL.I2C;
use HAL;

procedure Simple_I2C_Demo is

   --  I2C Bus selected
   Selected_I2C_Port      : constant access STM32.I2C.I2C_Port := I2C_1'Access;
   Selected_I2C_Port_AF   : constant GPIO_Alternate_Function := GPIO_AF_I2C1_4;
   Selected_I2C_Clock_Pin : GPIO_Point renames PB8;
   Selected_I2C_Data_Pin  : GPIO_Point renames PB9;

   Port : constant HAL.I2C.Any_I2C_Port := Selected_I2C_Port;

   --  Shift one because of 7-bit addressing
   I2C_Address : constant HAL.I2C.I2C_Address := 16#76# * 2;


   procedure SetupHardware is
      GPIO_Conf_AF : GPIO_Port_Configuration (Mode_AF);
      Selected_Clock_Speed : constant := 10_000;
   begin
      Enable_Clock (Selected_I2C_Clock_Pin);
      Enable_Clock (Selected_I2C_Data_Pin);

      Enable_Clock (Selected_I2C_Port.all);

      STM32.Device.Reset (Selected_I2C_Port.all);

      Configure_Alternate_Function (Selected_I2C_Clock_Pin, Selected_I2C_Port_AF);
      Configure_Alternate_Function (Selected_I2C_Data_Pin, Selected_I2C_Port_AF);

      GPIO_Conf_AF.AF_Speed       := Speed_100MHz;
      GPIO_Conf_AF.AF_Output_Type := Open_Drain;
      GPIO_Conf_AF.Resistors   := Pull_Up;
      Configure_IO (Selected_I2C_Clock_Pin, GPIO_Conf_AF);
      Configure_IO (Selected_I2C_Data_Pin, GPIO_Conf_AF);

      STM32.I2C.Configure
        (Selected_I2C_Port.all,
         (Clock_Speed          => Selected_Clock_Speed,
          Addressing_Mode      => STM32.I2C.Addressing_Mode_7bit,
          Own_Address          => 16#00#, others => <>));

      STM32.I2C.Set_State (Selected_I2C_Port.all, Enabled => True);
   end SetupHardware;

   ID : HAL.I2C.I2C_Data (1 .. 1);
   Status : HAL.I2C.I2C_Status;

begin

   SetupHardware;

   HAL.I2C.Mem_Read (This          => Port.all,
                 Addr          => I2C_Address,
                 Mem_Addr      => 16#D0#,
                 Mem_Addr_Size => HAL.I2C.Memory_Size_8b,
                 Data          => ID,
                 Status        => Status,
                 Timeout => 15000);

   if Status /= Ok then
      raise Program_Error with "I2C read error:" & Status'Img;
   end if;
end Simple_I2C_Demo;

In this simple example, I always get an error status at the end of reading. In the context of a more complete code, I always get a Busy status after waiting 15secs.

I really don't see what is going on as my code is largely inspired from the code I found on Github for a I2C sensor.

Maybe I forgot a specific code for I2C init but as I'm not an expert, I prefer to ask to experts :)

  • if you have a PC with linux you can use i2c-tools to test the Bosch sensor and its behavior and then implement this in ada code – ralf htp Jan 5 at 13:27
  • In addition any sensor has its specific command codes to be accessed from I2C cf page 31 of the datasheet cdn-shop.adafruit.com/datasheets/BST-BME280_DS001-10.pdf – ralf htp Jan 5 at 13:31
  • i would test this with i2c-tools following this guide: elinux.org/Interfacing_with_I2C_Devices – ralf htp Jan 5 at 13:33
  • The problem is that I don't have any i2c interface on my PC so testing the behaviour is not possible using Linux tools. What I can say is that using MBed C++ example, the sensor works but as it relies on an old MBed framework, I can't inspect the whole code. – Frédéric Praca Jan 5 at 19:04
  • If you have a RaspberryPi you can install i2c-tools on it and use its I2C interface. You have to implement the commands (i.e. send the bus address of the Bosch) in the datasheet ( embeddedadventures.com/datasheets/BME280.pdf) on page 31 to only get access to the registers of the sensor, how you read the registers of the sensor is in paragraph I2C read on page 33. Is the address of the sensor you use in your code accurate anyway ? The default address is 76h (hexadecimal) if SDO is connected to GND (datasheet page 32) The problem is that i do not know ada... – ralf htp Jan 5 at 19:23
2

Finally found what was wrong. After testing with C using STM HAL and investigating the Ada configuration code, I found that a line was missing:

      GPIO_Conf_AF.AF_Speed       := Speed_100MHz;
      GPIO_Conf_AF.AF_Output_Type := Open_Drain;
      GPIO_Conf_AF.Resistors   := Pull_Up;

      -- Missing configuration part of the record
      GPIO_Conf_AF.AF := Selected_I2C_Port_AF;
      -- That should be present even though there was a call to configure
      -- each pin few lines above

      Configure_IO (Selected_I2C_Clock_Pin, GPIO_Conf_AF);
      Configure_IO (Selected_I2C_Data_Pin, GPIO_Conf_AF);

Using Configure_IO after Configure_Alternate_Function crushes the configuration and, as there was a part of the record which was left uninitialized, the GPIO were incorrectly configured.

To be more precise, after looking at the code inside the GPIO handling, Configure_IO calls Configure_Alternate_Function using the AF part of the GPIO_Port_Configuration record. In my case, it was resetting it.

With the missing line, the code now runs correctly with Mem_Read and Master_Transmit/Master_Receive.

A big thanks to ralf htp for advising me to dive into the generated C code.

  • 1
    The code here passes the GPIO_Port_Configuration as an aggregate, which means you can’t accidentally leave out a component (unless of course it has a default, but you’d still have to say others => <>) – Simon Wright Jan 8 at 21:54
  • Thanks Simon, this code is clearer than mine – Frédéric Praca Jan 8 at 22:42
1

No, between HAL_I2C_Mem_Read and the HAL_I2C_Master_Transmit, wait, HAL_I2C_Master_Receive procedure is only a nuance cf How do I use the STM32CUBEF4 HAL library to read out the sensor data with i2c? . If you know what size of data you want to receive you can use the HAL_I2C_Master_Transmit, wait, HAL_I2C_Master_Receive procedure.

A C++ HAL I2C example is in https://letanphuc.net/2017/05/stm32f0-i2c-tutorial-7/

//Trigger Temperature measurement 
buffer[0]=0x00;  
HAL_I2C_Master_Transmit(&hi2c1,0x40<<1,buffer,1,100);  
HAL_Delay(20);  
HAL_I2C_Master_Receive(&hi2c1,0x40<<1,buffer,2,100);  
//buffer[0] : MSB data 
//buffer[1] : LSB data 
rawT = buffer[0]<<8 | buffer[1]; //combine 2 8-bit into 1 16bit  
Temperature = ((float)rawT/65536)*165.0 -40.0;  
//Trigger Humidity measurement buffer[0]=0x01; 
HAL_I2C_Master_Transmit(&hi2c1,0x40<<1,buffer,1,100);  
HAL_Delay(20);  
HAL_I2C_Master_Receive(&hi2c1,0x40<<1,buffer,2,100);  
//buffer[0] : MSB data 
//buffer[1] : LSB data 
rawH = buffer[0]<<8 | buffer[1]; //combine 2 8-bit into 1 16bit  
Humidity = ((float)rawH/65536)*100.0; HAL_Delay(100); }

Note that it uses HAL_I2C_Master_Transmit, waits 20 ms until the slave puts the data on the bus and then receives it with HAL_I2C_Master_Receive. This code is working, i tested it myself.

Possibly the problem is that the BME280 supports single byte reads and multi-byte reads (until it sends a NOACK and stop). HAL_I2C_Mem_Read waits for the ACK or stop but for some reasons it does not get it what causes the Busy and then Timeout behavior, cf page 33 of the datasheet http://www.embeddedadventures.com/datasheets/BME280.pdf for the multibyte read. You specified timeout to 15 sec and you get the timeout after 15 secs. So it appears that the BME280 simply does not stop sending or it sends nothing including not a NOACK and Stop condition ...

HAL_I2C_Mem_Read sometimes causes problems, this depends on the slave https://community.arm.com/developer/ip-products/system/f/embedded-forum/7989/trouble-getting-values-with-i2c-using-hal_library

By the way with the

HAL.I2C.Mem_Read (This          => Port.all,
                 Addr          => I2C_Address,
                 Mem_Addr      => 16#D0#,
                 Mem_Addr_Size => HAL.I2C.Memory_Size_8b,
                 Data          => ID,
                 Status        => Status,
                 Timeout => 15000);

you try to read 1 byte the chip identification number from register D0 cf http://www.embeddedadventures.com/datasheets/BME280.pdf page 26

  • There must be another problem in my configuration as even with your solution with Master_Transmit and Master_Receive, it doesn't work. – Frédéric Praca Jan 7 at 18:14
  • I finally tested with C code generated from STM32Cube and HAL_I2C_Mem_Read works like a charm. I need to investigate the Ada configuration part. – Frédéric Praca Jan 7 at 20:47

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