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[/] [or1k/] [trunk/] [insight/] [utils/] [amd-udi/] [include/] [messages.h] - Rev 1770
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/* @(#)messages.h 5.19 93/08/10 17:49:09, Srini, AMD */ /****************************************************************************** * Copyright 1991 Advanced Micro Devices, Inc. * * This software is the property of Advanced Micro Devices, Inc (AMD) which * specifically grants the user the right to modify, use and distribute this * software provided this notice is not removed or altered. All other rights * are reserved by AMD. * * AMD MAKES NO WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, WITH REGARD TO THIS * SOFTWARE. IN NO EVENT SHALL AMD BE LIABLE FOR INCIDENTAL OR CONSEQUENTIAL * DAMAGES IN CONNECTION WITH OR ARISING FROM THE FURNISHING, PERFORMANCE, OR * USE OF THIS SOFTWARE. * * So that all may benefit from your experience, please report any problems * or suggestions about this software to the 29K Technical Support Center at * 800-29-29-AMD (800-292-9263) in the USA, or 0800-89-1131 in the UK, or * 0031-11-1129 in Japan, toll free. The direct dial number is 512-462-4118. * * Advanced Micro Devices, Inc. * 29K Support Products * Mail Stop 573 * 5900 E. Ben White Blvd. * Austin, TX 78741 * 800-292-9263 ***************************************************************************** * Engineer: Srini Subramanian. ***************************************************************************** ** This header file describes the messages which are passed ** between the target and the host. This file basically defines ** a variant record of type msg_t. ** ** Note that the messages use the types defined in the "types.h" ** header file. ***************************************************************************** */ #ifndef _MESSAGES_H_INCLUDED_ #define _MESSAGES_H_INCLUDED_ #include "types.h" #include "mtip.h" /* ** Host to target definitions */ #define RESET 0 #define CONFIG_REQ 1 #define STATUS_REQ 2 #define READ_REQ 3 #define WRITE_REQ 4 #define BKPT_SET 5 #define BKPT_RM 6 #define BKPT_STAT 7 #define COPY 8 #define FILL 9 #define INIT 10 #define GO 11 #define STEP 12 #define BREAK 13 #define HIF_CALL_RTN 64 #define CHANNEL0 65 #define CHANNEL1_ACK 66 #define CHANNEL2_ACK 67 #define STDIN_NEEDED_ACK 68 #define STDIN_MODE_ACK 69 /* ** Target to host definitions */ #define RESET_ACK 32 #define CONFIG 33 #define STATUS 34 #define READ_ACK 35 #define WRITE_ACK 36 #define BKPT_SET_ACK 37 #define BKPT_RM_ACK 38 #define BKPT_STAT_ACK 39 #define COPY_ACK 40 #define FILL_ACK 41 #define INIT_ACK 42 #define HALT 43 #define ERROR 63 #define HIF_CALL 96 #define CHANNEL0_ACK 97 #define CHANNEL1 98 #define CHANNEL2 99 #define STDIN_NEEDED_REQ 100 #define STDIN_MODE_REQ 101 /* ** Endian conversion definitions */ #define INCOMING_MSG 0 #define OUTGOING_MSG 1 #ifdef MSDOS #define PARAMS(x) x #else #define PARAMS(x) () #endif /* A "generic" message */ struct generic_msg_t { INT32 code; /* generic */ INT32 length; BYTE byte; }; /* A "generic" message (with an INT32 array) */ struct generic_int32_msg_t { INT32 code; /* generic */ INT32 length; INT32 int32; }; /* ** Host to target messages and routines that build them */ struct reset_msg_t { INT32 code; /* 0 */ INT32 length; }; struct config_req_msg_t { INT32 code; /* 1 */ INT32 length; }; struct status_req_msg_t { INT32 code; /* 2 */ INT32 length; }; struct read_req_msg_t { INT32 code; /* 3 */ INT32 length; INT32 memory_space; ADDR32 address; INT32 count; INT32 size; }; struct write_req_msg_t { INT32 code; /* 4 */ INT32 length; INT32 memory_space; ADDR32 address; INT32 count; INT32 size; BYTE data; }; struct write_r_msg_t { INT32 code; /* 4 */ INT32 length; INT32 memory_space; ADDR32 address; INT32 byte_count; INT32 data; }; struct bkpt_set_msg_t { INT32 code; /* 5 */ INT32 length; INT32 memory_space; ADDR32 bkpt_addr; INT32 pass_count; INT32 bkpt_type; }; struct bkpt_rm_msg_t { INT32 code; /* 6 */ INT32 length; INT32 memory_space; ADDR32 bkpt_addr; }; struct bkpt_stat_msg_t { INT32 code; /* 7 */ INT32 length; INT32 memory_space; ADDR32 bkpt_addr; }; struct copy_msg_t { INT32 code; /* 8 */ INT32 length; INT32 source_space; ADDR32 source_addr; INT32 dest_space; ADDR32 dest_addr; INT32 count; INT32 size; }; struct fill_msg_t { INT32 code; /* 9 */ INT32 length; INT32 memory_space; ADDR32 start_addr; INT32 fill_count; INT32 byte_count; BYTE fill_data; }; struct init_msg_t { INT32 code; /* 10 */ INT32 length; ADDR32 text_start; ADDR32 text_end; ADDR32 data_start; ADDR32 data_end; ADDR32 entry_point; INT32 mem_stack_size; INT32 reg_stack_size; ADDR32 arg_start; INT32 os_control; ADDR32 highmem; }; struct go_msg_t { INT32 code; /* 11 */ INT32 length; }; struct step_msg_t { INT32 code; /* 12 */ INT32 length; INT32 count; }; struct break_msg_t { INT32 code; /* 13 */ INT32 length; }; struct hif_call_rtn_msg_t { INT32 code; /* 64 */ INT32 length; INT32 service_number; INT32 gr121; INT32 gr96; INT32 gr97; }; struct channel0_msg_t { INT32 code; /* 65 */ INT32 length; BYTE data; }; struct channel1_ack_msg_t { INT32 code; /* 66 */ INT32 length; INT32 gr96; }; struct channel2_ack_msg_t { INT32 code; /* 67 */ INT32 length; INT32 gr96; }; struct stdin_needed_ack_msg_t { INT32 code; /* 68 */ INT32 length; BYTE data; }; struct stdin_mode_ack_msg_t { INT32 code; /* 69 */ INT32 length; INT32 mode; }; /* ** Target to host messages */ struct reset_ack_msg_t { INT32 code; /* 32 */ INT32 length; }; struct config_msg_t { INT32 code; /* 33 */ INT32 length; INT32 processor_id; INT32 version; ADDR32 I_mem_start; INT32 I_mem_size; ADDR32 D_mem_start; INT32 D_mem_size; ADDR32 ROM_start; INT32 ROM_size; INT32 max_msg_size; INT32 max_bkpts; INT32 coprocessor; INT32 os_version; }; struct status_msg_t { INT32 code; /* 34 */ INT32 length; INT32 msgs_sent; INT32 msgs_received; INT32 errors; INT32 bkpts_hit; INT32 bkpts_free; INT32 traps; INT32 fills; INT32 spills; INT32 cycles; INT32 reserved; }; struct read_ack_msg_t { INT32 code; /* 35 */ INT32 length; INT32 memory_space; ADDR32 address; INT32 byte_count; BYTE data; }; struct read_r_ack_msg_t { INT32 code; /* 35 */ INT32 length; INT32 memory_space; ADDR32 address; INT32 byte_count; INT32 data; }; struct write_ack_msg_t { INT32 code; /* 36 */ INT32 length; INT32 memory_space; ADDR32 address; INT32 byte_count; }; struct bkpt_set_ack_msg_t { INT32 code; /* 37 */ INT32 length; INT32 memory_space; ADDR32 address; INT32 pass_count; INT32 bkpt_type; }; struct bkpt_rm_ack_msg_t { INT32 code; /* 38 */ INT32 length; INT32 memory_space; ADDR32 address; }; struct bkpt_stat_ack_msg_t { INT32 code; /* 39 */ INT32 length; INT32 memory_space; ADDR32 address; INT32 pass_count; INT32 bkpt_type; }; struct copy_ack_msg_t { INT32 code; /* 40 */ INT32 length; INT32 source_space; ADDR32 source_addr; INT32 dest_space; ADDR32 dest_addr; INT32 byte_count; }; struct fill_ack_msg_t { INT32 code; /* 41 */ INT32 length; INT32 memory_space; ADDR32 start_addr; INT32 fill_count; INT32 byte_count; }; struct init_ack_msg_t { INT32 code; /* 42 */ INT32 length; }; struct halt_msg_t { INT32 code; /* 43 */ INT32 length; INT32 memory_space; ADDR32 pc0; ADDR32 pc1; INT32 trap_number; }; struct error_msg_t { INT32 code; /* 63 */ INT32 length; INT32 error_code; INT32 memory_space; ADDR32 address; }; struct hif_call_msg_t { INT32 code; /* 96 */ INT32 length; INT32 service_number; INT32 lr2; INT32 lr3; INT32 lr4; }; struct channel0_ack_msg_t { INT32 code; /* 97 */ INT32 length; }; struct channel1_msg_t { INT32 code; /* 98 */ INT32 length; BYTE data; }; struct channel2_msg_t { INT32 code; /* 99 */ INT32 length; BYTE data; }; struct stdin_needed_msg_t { INT32 code; /* 100 */ INT32 length; INT32 nbytes; }; struct stdin_mode_msg_t { INT32 code; /* 101 */ INT32 length; INT32 mode; }; /* ** Union all of the message types together */ union msg_t { struct generic_msg_t generic_msg; struct generic_int32_msg_t generic_int32_msg; struct reset_msg_t reset_msg; struct config_req_msg_t config_req_msg; struct status_req_msg_t status_req_msg; struct read_req_msg_t read_req_msg; struct write_req_msg_t write_req_msg; struct write_r_msg_t write_r_msg; struct bkpt_set_msg_t bkpt_set_msg; struct bkpt_rm_msg_t bkpt_rm_msg; struct bkpt_stat_msg_t bkpt_stat_msg; struct copy_msg_t copy_msg; struct fill_msg_t fill_msg; struct init_msg_t init_msg; struct go_msg_t go_msg; struct step_msg_t step_msg; struct break_msg_t break_msg; struct hif_call_rtn_msg_t hif_call_rtn_msg; struct channel0_msg_t channel0_msg; struct channel1_ack_msg_t channel1_ack_msg; struct channel2_ack_msg_t channel2_ack_msg; struct stdin_needed_ack_msg_t stdin_needed_ack_msg; struct stdin_mode_ack_msg_t stdin_mode_ack_msg; struct reset_ack_msg_t reset_ack_msg; struct config_msg_t config_msg; struct status_msg_t status_msg; struct read_ack_msg_t read_ack_msg; struct read_r_ack_msg_t read_r_ack_msg; struct write_ack_msg_t write_ack_msg; struct bkpt_set_ack_msg_t bkpt_set_ack_msg; struct bkpt_rm_ack_msg_t bkpt_rm_ack_msg; struct bkpt_stat_ack_msg_t bkpt_stat_ack_msg; struct copy_ack_msg_t copy_ack_msg; struct fill_ack_msg_t fill_ack_msg; struct init_ack_msg_t init_ack_msg; struct halt_msg_t halt_msg; struct error_msg_t error_msg; struct hif_call_msg_t hif_call_msg; struct channel0_ack_msg_t channel0_ack_msg; struct channel1_msg_t channel1_msg; struct channel2_msg_t channel2_msg; struct stdin_needed_msg_t stdin_needed_msg; struct stdin_mode_msg_t stdin_mode_msg; }; /* ** This macro is used to get the size of a message data ** structure. The divide then multiply by the sizeof(INT32) ** gets rid of alignment problems which would cause sizeof() ** to return an incorect result. */ #define MSG_LENGTH(x) (((sizeof(x) / sizeof(INT32)) *\ sizeof(INT32)) - (2 * sizeof(INT32))) /* Functions to initialize, send, and receive messages */ INT32 msg_length PARAMS((INT32 code)); INT32 Mini_msg_init PARAMS((char *targname)); int Mini_alloc_msgbuf PARAMS((int size)); void Mini_msg_exit PARAMS((void)); INT32 Mini_msg_send PARAMS((void)); INT32 Mini_msg_recv PARAMS((INT32 RecvMode)); INT32 Mini_init_comm PARAMS((void)); INT32 Mini_reset_comm PARAMS((void)); INT32 Mini_exit_comm PARAMS((void)); void Mini_go_target PARAMS((void)); INT32 Mini_write_memory PARAMS((INT32 m_space, ADDR32 address, INT32 byte_count, BYTE *buffer)); INT32 Mini_read_memory PARAMS((INT32 m_space, ADDR32 address, INT32 byte_count, BYTE *buffer)); /* Function to build specific Minimon messages in "buffer" */ void Mini_build_reset_msg PARAMS((void)); void Mini_build_config_req_msg PARAMS((void)); void Mini_build_status_req_msg PARAMS((void)); void Mini_build_read_req_msg PARAMS((INT32 memory_space, ADDR32 address, INT32 count, INT32 size)); void Mini_build_write_req_msg PARAMS((INT32 memory_space, ADDR32 address, INT32 count, INT32 size, BYTE *data)); void Mini_build_bkpt_set_msg PARAMS((INT32 memory_space, ADDR32 bkpt_addr, INT32 pass_count, INT32 bkpt_type)); void Mini_build_bkpt_rm_msg PARAMS((INT32 memory_space, ADDR32 bkpt_addr)); void Mini_build_bkpt_stat_msg PARAMS((INT32 memory_space, ADDR32 bkpt_addr)); void Mini_build_copy_msg PARAMS((INT32 source_space, ADDR32 source_addr, INT32 dest_space, ADDR32 dest_addr, INT32 count, INT32 size)); void Mini_build_fill_msg PARAMS((INT32 memory_space, ADDR32 start_addr, INT32 fill_count, INT32 byte_count, BYTE *fill_data)); void Mini_build_init_msg PARAMS((ADDR32 text_start, ADDR32 text_end, ADDR32 data_start, ADDR32 data_end, ADDR32 entry_point, INT32 m_stack, INT32 r_stack, ADDR32 highmem, ADDR32 arg_start, INT32 os_control)); void Mini_build_go_msg PARAMS((void)); void Mini_build_step_msg PARAMS((INT32 count)); void Mini_build_break_msg PARAMS((void)); void Mini_build_hif_rtn_msg PARAMS((INT32 serv_num, INT32 gr121, INT32 gr96, INT32 gr97)); void Mini_build_channel0_msg PARAMS((BYTE *data, INT32 count)); void Mini_build_channel1_ack_msg PARAMS((INT32 gr96)); void Mini_build_channel2_ack_msg PARAMS((INT32 gr96)); void Mini_build_stdin_needed_ack_msg PARAMS((UINT32 count,BYTE *data)); void Mini_build_stdin_mode_ack_msg PARAMS((INT32 mode)); /* Functions to unpack/decipher the target to host messages */ void Mini_unpack_reset_ack_msg PARAMS((void)); void Mini_unpack_config_msg PARAMS((TIP_TARGET_CONFIG *target_config)); void Mini_unpack_status_msg PARAMS((TIP_TARGET_STATUS *target_status)); void Mini_unpack_read_ack_msg PARAMS((INT32 *mspace, ADDR32 *address, INT32 *byte_count, BYTE *buffer)); void Mini_unpack_write_ack_msg PARAMS((INT32 *mspace, ADDR32 *address, INT32 *byte_count)); void Mini_unpack_bkpt_set_ack_msg PARAMS((INT32 *mspace, ADDR32 *address, INT32 *pass_count, INT32 *bkpt_type)); void Mini_unpack_bkpt_rm_ack_msg PARAMS((INT32 *memory_space, ADDR32 *address)); void Mini_unpack_bkpt_stat_ack_msg PARAMS((INT32 *mspace, ADDR32 *address, INT32 *pass_count, INT32 *bkpt_type)); void Mini_unpack_copy_ack_msg PARAMS((INT32 *srcspace, ADDR32 *srcaddr, INT32 *dstspace, ADDR32 *dstaddr, INT32 *byte_count)); void Mini_unpack_fill_ack_msg PARAMS((INT32 *mspace, ADDR32 *startaddr, INT32 *fillcount, INT32 *bytecount)); void Mini_unpack_init_ack_msg PARAMS((void)); void Mini_unpack_halt_msg PARAMS((INT32 *mspace, ADDR32 *pc0, ADDR32 *pc1, INT32 *trap_number)); void Mini_unpack_error_msg PARAMS((INT32 *errcode, INT32 *mspace, ADDR32 *address)); void Mini_unpack_ch0_ack_msg PARAMS((void)); void Mini_unpack_channel1_msg PARAMS((BYTE *data, INT32 *len)); void Mini_unpack_channel2_msg PARAMS((BYTE *data, INT32 *len)); void Mini_unpack_hif_msg PARAMS((INT32 *gr121, INT32 *lr2, INT32 *lr3, INT32 *lr4)); void Mini_unpack_stdin_needed_msg PARAMS((INT32 *nbytes)); void Mini_unpack_stdin_mode_msg PARAMS((INT32 *mode)); void CopyMsgFromTarg PARAMS(( union msg_t *dest)); void CopyMsgToTarg PARAMS(( union msg_t *source)); #define BUFFER_SIZE 2048 #define BLOCK 1 #define NONBLOCK 0 #define MSGRETRY (INT32) -8 #endif /* _MESSAGES_H_INCLUDED_ */
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