Index: firmware/source/can.c =================================================================== diff -u -r88662452040aa91ce9a7da032e9ed1865517bdd5 -r6e61eeb9768451dc1390037ff83bcbfbbbaf01ca --- firmware/source/can.c (.../can.c) (revision 88662452040aa91ce9a7da032e9ed1865517bdd5) +++ firmware/source/can.c (.../can.c) (revision 6e61eeb9768451dc1390037ff83bcbfbbbaf01ca) @@ -349,8 +349,8 @@ } /* Wait */ canREG1->IF1MSK = 0xC0000000U | (uint32)((uint32)((uint32)0x000007FFU & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF1ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x00000000U | (uint32)((uint32)((uint32)0x100U & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF1MCTL = 0x00001000U | (uint32)0x00000400U | (uint32)0x00000000U | (uint32)0x00000080U | (uint32)8U; + canREG1->IF1ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x20000000U | (uint32)((uint32)((uint32)0x102U & (uint32)0x000007FFU) << (uint32)18U); + canREG1->IF1MCTL = 0x00001000U | (uint32)0x00000800U | (uint32)0x00000000U | (uint32)0x00000080U | (uint32)8U; canREG1->IF1CMD = (uint8) 0xF8U; canREG1->IF1NO = 9U; @@ -368,8 +368,8 @@ } /* Wait */ canREG1->IF2MSK = 0xC0000000U | (uint32)((uint32)((uint32)0x000007FFU & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF2ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x20000000U | (uint32)((uint32)((uint32)0x102U & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF2MCTL = 0x00001000U | (uint32)0x00000800U | (uint32)0x00000000U | (uint32)0x00000080U | (uint32)8U; + canREG1->IF2ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x00000000U | (uint32)((uint32)((uint32)0x103U & (uint32)0x000007FFU) << (uint32)18U); + canREG1->IF2MCTL = 0x00001000U | (uint32)0x00000400U | (uint32)0x00000000U | (uint32)0x00000080U | (uint32)8U; canREG1->IF2CMD = (uint8) 0xF8U; canREG1->IF2NO = 10U; @@ -387,7 +387,7 @@ } /* Wait */ canREG1->IF1MSK = 0xC0000000U | (uint32)((uint32)((uint32)0x000007FFU & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF1ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x00000000U | (uint32)((uint32)((uint32)0x103U & (uint32)0x000007FFU) << (uint32)18U); + canREG1->IF1ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x00000000U | (uint32)((uint32)((uint32)0x402U & (uint32)0x000007FFU) << (uint32)18U); canREG1->IF1MCTL = 0x00001000U | (uint32)0x00000400U | (uint32)0x00000000U | (uint32)0x00000080U | (uint32)8U; canREG1->IF1CMD = (uint8) 0xF8U; canREG1->IF1NO = 11U; @@ -406,8 +406,8 @@ } /* Wait */ canREG1->IF2MSK = 0xC0000000U | (uint32)((uint32)((uint32)0x000007FFU & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF2ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x00000000U | (uint32)((uint32)((uint32)0x402U & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF2MCTL = 0x00001000U | (uint32)0x00000400U | (uint32)0x00000000U | (uint32)0x00000080U | (uint32)8U; + canREG1->IF2ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x20000000U | (uint32)((uint32)((uint32)0x403U & (uint32)0x000007FFU) << (uint32)18U); + canREG1->IF2MCTL = 0x00001000U | (uint32)0x00000800U | (uint32)0x00000000U | (uint32)0x00000080U | (uint32)8U; canREG1->IF2CMD = (uint8) 0xF8U; canREG1->IF2NO = 12U; @@ -425,8 +425,8 @@ } /* Wait */ canREG1->IF1MSK = 0xC0000000U | (uint32)((uint32)((uint32)0x000007FFU & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF1ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x20000000U | (uint32)((uint32)((uint32)0x403U & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF1MCTL = 0x00001000U | (uint32)0x00000800U | (uint32)0x00000000U | (uint32)0x00000080U | (uint32)8U; + canREG1->IF1ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x00000000U | (uint32)((uint32)((uint32)0x404U & (uint32)0x000007FFU) << (uint32)18U); + canREG1->IF1MCTL = 0x00001000U | (uint32)0x00000400U | (uint32)0x00000000U | (uint32)0x00000080U | (uint32)8U; canREG1->IF1CMD = (uint8) 0xF8U; canREG1->IF1NO = 13U; @@ -444,30 +444,11 @@ } /* Wait */ canREG1->IF2MSK = 0xC0000000U | (uint32)((uint32)((uint32)0x000007FFU & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF2ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x00000000U | (uint32)((uint32)((uint32)0x404U & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF2MCTL = 0x00001000U | (uint32)0x00000400U | (uint32)0x00000000U | (uint32)0x00000080U | (uint32)8U; + canREG1->IF2ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x20000000U | (uint32)((uint32)((uint32)0x405U & (uint32)0x000007FFU) << (uint32)18U); + canREG1->IF2MCTL = 0x00001000U | (uint32)0x00000800U | (uint32)0x00000000U | (uint32)0x00000080U | (uint32)8U; canREG1->IF2CMD = (uint8) 0xF8U; canREG1->IF2NO = 14U; - /** - Initialize message 15 - * - Wait until IF1 is ready for use - * - Set message mask - * - Set message control word - * - Set message arbitration - * - Set IF1 control byte - * - Set IF1 message number - */ - /*SAFETYMCUSW 28 D MR:NA "Potentially infinite loop found - Hardware Status check for execution sequence" */ - while ((canREG1->IF1STAT & 0x80U) ==0x80U) - { - } /* Wait */ - - canREG1->IF1MSK = 0xC0000000U | (uint32)((uint32)((uint32)0x000007FFU & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF1ARB = (uint32)0x80000000U | (uint32)0x00000000U | (uint32)0x20000000U | (uint32)((uint32)((uint32)0x405U & (uint32)0x000007FFU) << (uint32)18U); - canREG1->IF1MCTL = 0x00001000U | (uint32)0x00000800U | (uint32)0x00000000U | (uint32)0x00000080U | (uint32)8U; - canREG1->IF1CMD = (uint8) 0xF8U; - canREG1->IF1NO = 15U; - /** - Setup IF1 for data transmission * - Wait until IF1 is ready for use * - Set IF1 control byte