/* Definitions of types that are used to store AVR architecture and device information. Copyright (C) 2012-2022 Free Software Foundation, Inc. Contributed by Georg-Johann Lay (avr@gjlay.de) This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see . */ #ifndef AVR_ARCH_H #define AVR_ARCH_H #define AVR_MMCU_DEFAULT "avr2" /* This enum supplies indices into the avr_arch_types[] table below. */ enum avr_arch_id { ARCH_UNKNOWN, ARCH_AVR1, ARCH_AVR2, ARCH_AVR25, ARCH_AVR3, ARCH_AVR31, ARCH_AVR35, ARCH_AVR4, ARCH_AVR5, ARCH_AVR51, ARCH_AVR6, ARCH_AVRTINY, ARCH_AVRXMEGA2, ARCH_AVRXMEGA3, ARCH_AVRXMEGA4, ARCH_AVRXMEGA5, ARCH_AVRXMEGA6, ARCH_AVRXMEGA7 }; /* Architecture-specific properties. */ typedef struct { /* Assembler only. */ int asm_only; /* Core have 'MUL*' instructions. */ int have_mul; /* Core have 'CALL' and 'JMP' instructions. */ int have_jmp_call; /* Core have 'MOVW' and 'LPM Rx,Z' instructions. */ int have_movw_lpmx; /* Core have 'ELPM' instructions. */ int have_elpm; /* Core have 'ELPM Rx,Z' instructions. */ int have_elpmx; /* Core have 'EICALL' and 'EIJMP' instructions. */ int have_eijmp_eicall; /* This is an XMEGA core. */ int xmega_p; /* This core has the RAMPD special function register and thus also the RAMPX, RAMPY and RAMPZ registers. */ int have_rampd; /* This is a TINY core. */ int tiny_p; /* Default start of data section address for architecture. */ int default_data_section_start; /* Offset where flash memory is seen in RAM address range or 0. */ int flash_pm_offset; /* Offset between SFR address and RAM address: SFR-address = RAM-address - sfr_offset */ int sfr_offset; /* Architecture id to built-in define __AVR_ARCH__ (NULL -> no macro) */ const char *const macro; /* Architecture name. */ const char *const name; } avr_arch_t; /* Device-specific properties. */ typedef struct { /* Device name. */ const char *const name; /* Index in avr_arch_types[]. */ enum avr_arch_id arch_id; /* device specific feature */ int dev_attribute; /* Must lie outside user's namespace. NULL == no macro. */ const char *const macro; /* Start of data section. */ int data_section_start; /* Start of text section. */ int text_section_start; /* Flash size in bytes. */ int flash_size; /* Offset where flash is seen in the RAM address space. */ int flash_pm_offset; } avr_mcu_t; /* AVR device specific features. AVR_ISA_RMW Only few avr devices have Read-Modify-Write (RMW) instructions (XCH, LAC, LAS and LAT) AVR_SHORT_SP Stack Pointer has only 8 bit width. The device / multilib has an 8-bit stack pointer (no SPH). AVR_ERRATA_SKIP Some AVR devices have a core erratum when skipping a 2-word instruction. Skip instructions are: SBRC, SBRS, SBIC, SBIS, CPSE. Problems will occur with return address is IRQ executes during the skip sequence. A support ticket from Atmel returned the following information: Subject: (ATTicket:644469) On AVR skip-bug core Erratum From: avr@atmel.com Date: 2011-07-27 (Please keep the subject when replying to this mail) This errata exists only in AT90S8515 and ATmega103 devices. For information please refer the following respective errata links http://www.atmel.com/dyn/resources/prod_documents/doc2494.pdf http://www.atmel.com/dyn/resources/prod_documents/doc1436.pdf AVR_ISA_RCALL Always use RJMP / RCALL and assume JMP / CALL are not available. This affects multilib selection via specs generation and -mshort-calls. Even if a device like ATtiny417 from avrxmega3 supports JMP / CALL, we assume these instructions are not available and we set the built-in macro __AVR_HAVE_JMP_CALL__ accordingly. This macro is used to determine a rough estimate of flash size in libgcc, and AVR-LibC uses this macro to determine vector sizes. */ enum avr_device_specific_features { AVR_ISA_NONE, AVR_ISA_RMW = 0x1, /* device has RMW instructions. */ AVR_SHORT_SP = 0x2, /* Stack Pointer has 8 bits width. */ AVR_ERRATA_SKIP = 0x4, /* device has a core erratum. */ AVR_ISA_LDS = 0x8, /* whether LDS / STS is valid for all data in static storage. Only useful for reduced Tiny. */ AVR_ISA_RCALL = 0x10 /* Use RJMP / RCALL even though JMP / CALL are available (-mshort-calls). */ }; /* Map architecture to its texinfo string. */ typedef struct { /* Architecture ID. */ enum avr_arch_id arch_id; /* textinfo source to describe the architecture. */ const char *texinfo; } avr_arch_info_t; /* Preprocessor macros to define depending on MCU type. */ extern const avr_arch_t avr_arch_types[]; extern const avr_arch_t *avr_arch; extern const avr_mcu_t avr_mcu_types[]; extern void avr_inform_core_architectures (void); #endif /* AVR_ARCH_H */