/* * Copyright (c) 2000 Apple Computer, Inc. All rights reserved. * * @APPLE_LICENSE_HEADER_START@ * * The contents of this file constitute Original Code as defined in and * are subject to the Apple Public Source License Version 1.1 (the * "License"). You may not use this file except in compliance with the * License. Please obtain a copy of the License at * http://www.apple.com/publicsource and read it before using this file. * * This Original Code and all software distributed under the License are * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE OR NON-INFRINGEMENT. Please see the * License for the specific language governing rights and limitations * under the License. * * @APPLE_LICENSE_HEADER_END@ */ #include #include #include #include #include int kdp_vm_read( caddr_t, caddr_t, unsigned int); int kdp_vm_write( caddr_t, caddr_t, unsigned int); #define DO_ALIGN 1 /* align all packet data accesses */ #define KDP_TEST_HARNESS 0 #if KDP_TEST_HARNESS #define dprintf(x) kprintf x #else #define dprintf(x) #endif static kdp_dispatch_t dispatch_table[KDP_REATTACH - KDP_CONNECT +1] = { /* 0 */ kdp_connect, /* 1 */ kdp_disconnect, /* 2 */ kdp_hostinfo, /* 3 */ kdp_version, /* 4 */ kdp_maxbytes, /* 5 */ kdp_readmem, /* 6 */ kdp_writemem, /* 7 */ kdp_readregs, /* 8 */ kdp_writeregs, /* 9 */ kdp_unknown, /* A */ kdp_unknown, /* B */ kdp_suspend, /* C */ kdp_resumecpus, /* D */ kdp_unknown, /* E */ kdp_unknown, /* F */ kdp_breakpoint_set, /*10 */ kdp_breakpoint_remove, /*11 */ kdp_regions, /*12 */ kdp_reattach }; kdp_glob_t kdp; #define MAX_BREAKPOINTS 100 #define KDP_MAX_BREAKPOINTS 100 #define BREAKPOINT_NOT_FOUND 101 #define BREAKPOINT_ALREADY_SET 102 #define KDP_VERSION 10 typedef struct{ unsigned int address; unsigned int old_instruction; } kdp_breakpoint_record_t; static kdp_breakpoint_record_t breakpoint_list[MAX_BREAKPOINTS]; static unsigned int breakpoints_initialized = 0; int reattach_wait = 0; int noresume_on_disconnect = 0; boolean_t kdp_packet( unsigned char *pkt, int *len, unsigned short *reply_port ) { static unsigned aligned_pkt[1538/sizeof(unsigned)+1]; // max ether pkt kdp_pkt_t *rd = (kdp_pkt_t *)&aligned_pkt; int plen = *len; unsigned int req; boolean_t ret; #if DO_ALIGN bcopy((char *)pkt, (char *)rd, sizeof(aligned_pkt)); #else rd = (kdp_pkt_t *)pkt; #endif if (plen < sizeof (rd->hdr) || rd->hdr.len != plen) { printf("kdp_packet bad len pkt %d hdr %d\n", plen, rd->hdr.len); return (FALSE); } if (rd->hdr.is_reply) { printf("kdp_packet reply recvd req %x seq %x\n", rd->hdr.request, rd->hdr.seq); return (FALSE); } req = rd->hdr.request; if ((req < KDP_CONNECT) || (req > KDP_REATTACH)) { printf("kdp_packet bad request %x len %d seq %x key %x\n", rd->hdr.request, rd->hdr.len, rd->hdr.seq, rd->hdr.key); return (FALSE); } ret = ((*dispatch_table[req - KDP_CONNECT])(rd, len, reply_port)); #if DO_ALIGN bcopy((char *)rd, (char *) pkt, *len); #endif return ret; } static boolean_t kdp_unknown( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_pkt_t *rd = (kdp_pkt_t *)pkt; printf("kdp_unknown request %x len %d seq %x key %x\n", rd->hdr.request, rd->hdr.len, rd->hdr.seq, rd->hdr.key); return (FALSE); } static boolean_t kdp_connect( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_connect_req_t *rq = &pkt->connect_req; int plen = *len; kdp_connect_reply_t *rp = &pkt->connect_reply; if (plen < sizeof (*rq)) return (FALSE); dprintf(("kdp_connect seq %x greeting %s\n", rq->hdr.seq, rq->greeting)); if (kdp.is_conn) { if (rq->hdr.seq == kdp.conn_seq) /* duplicate request */ rp->error = KDPERR_NO_ERROR; else rp->error = KDPERR_ALREADY_CONNECTED; } else { kdp.reply_port = rq->req_reply_port; kdp.exception_port = rq->exc_note_port; kdp.is_conn = TRUE; kdp.conn_seq = rq->hdr.seq; rp->error = KDPERR_NO_ERROR; } rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); *reply_port = kdp.reply_port; *len = rp->hdr.len; if (current_debugger == KDP_CUR_DB) active_debugger=1; return (TRUE); } static boolean_t kdp_disconnect( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_disconnect_req_t *rq = &pkt->disconnect_req; int plen = *len; kdp_disconnect_reply_t *rp = &pkt->disconnect_reply; if (plen < sizeof (*rq)) return (FALSE); if (!kdp.is_conn) return (FALSE); dprintf(("kdp_disconnect\n")); *reply_port = kdp.reply_port; kdp.reply_port = kdp.exception_port = 0; kdp.is_halted = kdp.is_conn = FALSE; kdp.exception_seq = kdp.conn_seq = 0; if (noresume_on_disconnect == 1) { reattach_wait = 1; noresume_on_disconnect = 0; } rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); *len = rp->hdr.len; if (current_debugger == KDP_CUR_DB) active_debugger=0; return (TRUE); } static boolean_t kdp_reattach( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_reattach_req_t *rq = &pkt->reattach_req; kdp_disconnect_reply_t *rp = &pkt->disconnect_reply; kdp.is_conn = TRUE; kdp_disconnect(pkt, len, reply_port); *reply_port = rq->req_reply_port; reattach_wait = 1; return (TRUE); } static boolean_t kdp_hostinfo( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_hostinfo_req_t *rq = &pkt->hostinfo_req; int plen = *len; kdp_hostinfo_reply_t *rp = &pkt->hostinfo_reply; if (plen < sizeof (*rq)) return (FALSE); rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); kdp_machine_hostinfo(&rp->hostinfo); *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } static boolean_t kdp_suspend( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_suspend_req_t *rq = &pkt->suspend_req; int plen = *len; kdp_suspend_reply_t *rp = &pkt->suspend_reply; if (plen < sizeof (*rq)) return (FALSE); rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); dprintf(("kdp_suspend\n")); kdp.is_halted = TRUE; *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } static boolean_t kdp_resumecpus( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_resumecpus_req_t *rq = &pkt->resumecpus_req; int plen = *len; kdp_resumecpus_reply_t *rp = &pkt->resumecpus_reply; if (plen < sizeof (*rq)) return (FALSE); rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); dprintf(("kdp_resumecpus %x\n", rq->cpu_mask)); kdp.is_halted = FALSE; *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } static boolean_t kdp_writemem( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_writemem_req_t *rq = &pkt->writemem_req; int plen = *len; kdp_writemem_reply_t *rp = &pkt->writemem_reply; int cnt; if (plen < sizeof (*rq)) return (FALSE); if (rq->nbytes > MAX_KDP_DATA_SIZE) rp->error = KDPERR_BAD_NBYTES; else { dprintf(("kdp_writemem addr %x size %d\n", rq->address, rq->nbytes)); cnt = kdp_vm_write((caddr_t)rq->data, (caddr_t)rq->address, rq->nbytes); rp->error = KDPERR_NO_ERROR; } rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } static boolean_t kdp_readmem( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_readmem_req_t *rq = &pkt->readmem_req; int plen = *len; kdp_readmem_reply_t *rp = &pkt->readmem_reply; int cnt; if (plen < sizeof (*rq)) return (FALSE); rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); if (rq->nbytes > MAX_KDP_DATA_SIZE) rp->error = KDPERR_BAD_NBYTES; else { unsigned int n = rq->nbytes; dprintf(("kdp_readmem addr %x size %d\n", rq->address, rq->nbytes)); cnt = kdp_vm_read((caddr_t)rq->address, (caddr_t)rp->data, rq->nbytes); rp->error = KDPERR_NO_ERROR; rp->hdr.len += cnt; } *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } static boolean_t kdp_maxbytes( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_maxbytes_req_t *rq = &pkt->maxbytes_req; int plen = *len; kdp_maxbytes_reply_t *rp = &pkt->maxbytes_reply; if (plen < sizeof (*rq)) return (FALSE); rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); dprintf(("kdp_maxbytes\n")); rp->max_bytes = MAX_KDP_DATA_SIZE; *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } static boolean_t kdp_version( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_version_req_t *rq = &pkt->version_req; int plen = *len; kdp_version_reply_t *rp = &pkt->version_reply; kdp_region_t *r; if (plen < sizeof (*rq)) return (FALSE); rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); dprintf(("kdp_version\n")); rp->version = KDP_VERSION; #ifdef __ppc__ if (!(kdp_flag & KDP_BP_DIS)) rp->feature = KDP_FEATURE_BP; else rp->feature = 0; #else rp->feature = 0; #endif *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } static boolean_t kdp_regions( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_regions_req_t *rq = &pkt->regions_req; int plen = *len; kdp_regions_reply_t *rp = &pkt->regions_reply; kdp_region_t *r; if (plen < sizeof (*rq)) return (FALSE); rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); dprintf(("kdp_regions\n")); r = rp->regions; rp->nregions = 0; (vm_offset_t)r->address = 0; r->nbytes = 0xffffffff; r->protection = VM_PROT_ALL; r++; rp->nregions++; rp->hdr.len += rp->nregions * sizeof (kdp_region_t); *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } static boolean_t kdp_writeregs( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_writeregs_req_t *rq = &pkt->writeregs_req; int plen = *len; int size; kdp_writeregs_reply_t *rp = &pkt->writeregs_reply; if (plen < sizeof (*rq)) return (FALSE); size = rq->hdr.len - sizeof(kdp_hdr_t) - sizeof(unsigned int); rp->error = kdp_machine_write_regs(rq->cpu, rq->flavor, rq->data, &size); rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } static boolean_t kdp_readregs( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_readregs_req_t *rq = &pkt->readregs_req; int plen = *len; kdp_readregs_reply_t *rp = &pkt->readregs_reply; int size; if (plen < sizeof (*rq)) return (FALSE); rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); rp->error = kdp_machine_read_regs(rq->cpu, rq->flavor, rp->data, &size); rp->hdr.len += size; *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } static boolean_t kdp_breakpoint_set( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_breakpoint_req_t *rq = &pkt->breakpoint_req; kdp_breakpoint_reply_t *rp = &pkt->breakpoint_reply; int plen = *len; int cnt, i; unsigned int old_instruction = 0; unsigned int breakinstr = kdp_ml_get_breakinsn(); if(breakpoints_initialized == 0) { for(i=0;(i < MAX_BREAKPOINTS); breakpoint_list[i].address=0, i++); breakpoints_initialized++; } if (plen < sizeof (*rq)) return (FALSE); cnt = kdp_vm_read((caddr_t)rq->address, (caddr_t)(&old_instruction), sizeof(int)); if (old_instruction==breakinstr) { printf("A trap was already set at that address, not setting new breakpoint\n"); rp->error = BREAKPOINT_ALREADY_SET; rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } for(i=0;(i < MAX_BREAKPOINTS) && (breakpoint_list[i].address != 0); i++); if (i == MAX_BREAKPOINTS) { rp->error = KDP_MAX_BREAKPOINTS; rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } breakpoint_list[i].address = rq->address; breakpoint_list[i].old_instruction = old_instruction; cnt = kdp_vm_write((caddr_t)&breakinstr, (caddr_t)rq->address, sizeof(&breakinstr)); rp->error = KDPERR_NO_ERROR; rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } static boolean_t kdp_breakpoint_remove( kdp_pkt_t *pkt, int *len, unsigned short *reply_port ) { kdp_breakpoint_req_t *rq = &pkt->breakpoint_req; kdp_breakpoint_reply_t *rp = &pkt->breakpoint_reply; int plen = *len; int cnt,i; if (plen < sizeof (*rq)) return (FALSE); for(i=0;(i < MAX_BREAKPOINTS) && (breakpoint_list[i].address != rq->address); i++); if (i == MAX_BREAKPOINTS) { rp->error = BREAKPOINT_NOT_FOUND; rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); /* Check if it needs to be FALSE in case of error */ } breakpoint_list[i].address = 0; cnt = kdp_vm_write((caddr_t)&(breakpoint_list[i].old_instruction), (caddr_t)rq->address, sizeof(int)); rp->error = KDPERR_NO_ERROR; rp->hdr.is_reply = 1; rp->hdr.len = sizeof (*rp); *reply_port = kdp.reply_port; *len = rp->hdr.len; return (TRUE); } boolean_t kdp_remove_all_breakpoints() { int i; boolean_t breakpoint_found = FALSE; if (breakpoints_initialized) { for(i=0;i < MAX_BREAKPOINTS; i++) { if (breakpoint_list[i].address) { kdp_vm_write((caddr_t)&(breakpoint_list[i].old_instruction), (caddr_t)breakpoint_list[i].address, sizeof(int)); breakpoint_found = TRUE; breakpoint_list[i].address = 0; } } if (breakpoint_found) printf("kdp_remove_all_breakpoints: found extant breakpoints, removing them.\n"); } return breakpoint_found; }