/* * PROM interface support * Copyright 1996 The Australian National University. * Copyright 1996 Fujitsu Laboratories Limited * Copyright 1999 Pete A. Zaitcev * This software may be distributed under the terms of the Gnu * Public License version 2 or later */ #include #include "openprom.h" #include "config.h" #include "libopenbios/bindings.h" #include "drivers/drivers.h" #include "libopenbios/sys_info.h" #include "boot.h" #include "romvec.h" #ifdef CONFIG_DEBUG_OBP #define DPRINTF(fmt, args...) \ do { printk(fmt , ##args); } while (0) #else #define DPRINTF(fmt, args...) #endif char obp_stdin, obp_stdout; const char *obp_stdin_path, *obp_stdout_path; struct linux_arguments_v0 obp_arg; const char *bootpath; static const struct linux_arguments_v0 * const obp_argp = &obp_arg; static void (*sync_hook)(void); static struct linux_romvec romvec0; static void doublewalk(__attribute__((unused)) unsigned int ptab1, __attribute__((unused)) unsigned int va) { } int obp_nextnode(int node) { int peer; PUSH(node); fword("peer"); peer = POP(); DPRINTF("obp_nextnode(0x%x) = 0x%x\n", node, peer); return peer; } int obp_child(int node) { int child; PUSH(node); fword("child"); child = POP(); DPRINTF("obp_child(0x%x) = 0x%x\n", node, child); return child; } int obp_proplen(int node, const char *name) { int notfound; if (!node) { DPRINTF("obp_proplen(0x0, %s) = -1\n", name); return -1; } push_str(name); PUSH(node); fword("get-package-property"); notfound = POP(); if (notfound) { DPRINTF("obp_proplen(0x%x, %s) (not found)\n", node, name); return -1; } else { int len; len = POP(); (void) POP(); DPRINTF("obp_proplen(0x%x, %s) = %d\n", node, name, len); return len; } } #ifdef CONFIG_DEBUG_OBP static int looks_like_string(const char *str, int len) { int i; int ret = (str[len-1] == '\0'); for (i = 0; i < len-1 && ret; i++) { int ch = str[i] & 0xFF; if (ch < 0x20 || ch > 0x7F) ret = 0; } return ret; } #endif int obp_getprop(int node, const char *name, char *value) { int notfound, found; int len; const char *str; if (!node) { DPRINTF("obp_getprop(0x0, %s) = -1\n", name); return -1; } if (!name) { // NULL name means get first property push_str(""); PUSH(node); fword("next-property"); found = POP(); if (found) { len = POP(); str = (char *) POP(); DPRINTF("obp_getprop(0x%x, NULL) = %s\n", node, str); return (int)str; } DPRINTF("obp_getprop(0x%x, NULL) (not found)\n", node); return -1; } else { push_str(name); PUSH(node); fword("get-package-property"); notfound = POP(); } if (notfound) { DPRINTF("obp_getprop(0x%x, %s) (not found)\n", node, name); return -1; } else { len = POP(); str = (char *) POP(); if (len > 0) memcpy(value, str, len); else str = "NULL"; #ifdef CONFIG_DEBUG_OBP if (looks_like_string(str, len)) { DPRINTF("obp_getprop(0x%x, %s) = %s\n", node, name, str); } else { int i; DPRINTF("obp_getprop(0x%x, %s) = ", node, name); for (i = 0; i < len; i++) { DPRINTF("%02x%s", str[i] & 0xFF, (len == 4 || i == len-1) ? "" : " "); } DPRINTF("\n"); } #endif return len; } } const char *obp_nextprop(int node, const char *name) { int found; if (!name || *name == '\0') { // NULL name means get first property push_str(""); name = "NULL"; } else { push_str(name); } PUSH(node); fword("next-property"); found = POP(); if (!found) { DPRINTF("obp_nextprop(0x%x, %s) (not found)\n", node, name); return ""; } else { char *str; POP(); /* len */ str = (char *) POP(); DPRINTF("obp_nextprop(0x%x, %s) = %s\n", node, name, str); return str; } } int obp_setprop(__attribute__((unused)) int node, __attribute__((unused)) const char *name, __attribute__((unused)) char *value, __attribute__((unused)) int len) { DPRINTF("obp_setprop(0x%x, %s) = %s (%d)\n", node, name, value, len); return -1; } static const struct linux_nodeops nodeops0 = { obp_nextnode_handler, /* int (*no_nextnode)(int node); */ obp_child_handler, /* int (*no_child)(int node); */ obp_proplen_handler, /* int (*no_proplen)(int node, char *name); */ obp_getprop_handler, /* int (*no_getprop)(int node,char *name,char *val); */ obp_setprop_handler, /* int (*no_setprop)(int node, char *name, char *val, int len); */ obp_nextprop_handler /* char * (*no_nextprop)(int node, char *name); */ }; int obp_nbgetchar(void) { return getchar(); } int obp_nbputchar(int ch) { putchar(ch); return 0; } void obp_putstr(char *str, int len) { PUSH(pointer2cell(str)); PUSH(len); fword("type"); } void obp_printf(const char *fmt, ...) { va_list ap; va_start(ap, fmt); printk(fmt, ap); va_end(ap); } void obp_reboot(char *str) { printk("rebooting (%s)\n", str); *reset_reg = 1; printk("reboot failed\n"); for (;;) {} } void obp_abort(void) { printk("abort, power off\n"); *power_reg = 1; printk("power off failed\n"); for (;;) {} } void obp_halt(void) { printk("halt, power off\n"); *power_reg = 1; printk("power off failed\n"); for (;;) {} } int obp_devopen(char *str) { int ret; push_str(str); fword("open-dev"); ret = POP(); DPRINTF("obp_devopen(%s) = 0x%x\n", str, ret); return ret; } int obp_devclose(int dev_desc) { int ret = 1; PUSH(dev_desc); fword("close-dev"); DPRINTF("obp_devclose(0x%x) = %d\n", dev_desc, ret); return ret; } int obp_rdblkdev(int dev_desc, int num_blks, int offset, char *buf) { int ret, hi, lo, bs; bs = 512; hi = ((uint64_t)offset * bs) >> 32; lo = ((uint64_t)offset * bs) & 0xffffffff; ret = obp_devseek(dev_desc, hi, lo); ret = obp_devread(dev_desc, buf, num_blks * bs) / bs; DPRINTF("obp_rdblkdev(fd 0x%x, num_blks %d, offset %d (hi %d lo %d), buf 0x%x) = %d\n", dev_desc, num_blks, offset, hi, lo, (int)buf, ret); return ret; } int obp_devread(int dev_desc, char *buf, int nbytes) { int ret; PUSH((int)buf); PUSH(nbytes); push_str("read"); PUSH(dev_desc); fword("$call-method"); ret = POP(); DPRINTF("obp_devread(fd 0x%x, buf 0x%x, nbytes %d) = %d\n", dev_desc, (int)buf, nbytes, ret); return ret; } int obp_devwrite(int dev_desc, char *buf, int nbytes) { #ifdef CONFIG_DEBUG_OBP_DEVWRITE /* disabled, makes too much noise */ int ret; #endif PUSH((int)buf); PUSH(nbytes); push_str("write"); PUSH(dev_desc); fword("$call-method"); #ifdef CONFIG_DEBUG_OBP_DEVWRITE ret = POP(); DPRINTF("obp_devwrite(fd 0x%x, buf %s, nbytes %d) = %d\n", dev_desc, buf, nbytes, ret); #else POP(); #endif return nbytes; } int obp_devseek(int dev_desc, int hi, int lo) { int ret; PUSH(lo); PUSH(hi); push_str("seek"); PUSH(dev_desc); fword("$call-method"); ret = POP(); DPRINTF("obp_devseek(fd 0x%x, hi %d, lo %d) = %d\n", dev_desc, hi, lo, ret); return ret; } int obp_inst2pkg(int dev_desc) { int ret; PUSH(dev_desc); fword("ihandle>non-interposed-phandle"); ret = POP(); DPRINTF("obp_inst2pkg(fd 0x%x) = 0x%x\n", dev_desc, ret); return ret; } int obp_cpustart(__attribute__((unused))unsigned int whichcpu, __attribute__((unused))int ctxtbl_ptr, __attribute__((unused))int thiscontext, __attribute__((unused))char *prog_counter) { int cpu, found; struct linux_prom_registers *smp_ctable = (void *)ctxtbl_ptr; DPRINTF("obp_cpustart: cpu %d, ctxptr 0x%x, ctx %d, pc 0x%x\n", whichcpu, smp_ctable->phys_addr, thiscontext, (unsigned int)prog_counter); found = obp_getprop(whichcpu, "mid", (char *)&cpu); if (found == -1) return -1; DPRINTF("cpu found, id %d -> cpu %d\n", whichcpu, cpu); return start_cpu((unsigned int)prog_counter, ((unsigned int)smp_ctable->phys_addr) >> 4, thiscontext, cpu); } int obp_cpustop(__attribute__((unused)) unsigned int whichcpu) { DPRINTF("obp_cpustop: cpu %d\n", whichcpu); return 0; } int obp_cpuidle(__attribute__((unused)) unsigned int whichcpu) { DPRINTF("obp_cpuidle: cpu %d\n", whichcpu); return 0; } int obp_cpuresume(__attribute__((unused)) unsigned int whichcpu) { DPRINTF("obp_cpuresume: cpu %d\n", whichcpu); return 0; } void obp_fortheval_v2(char *str, int arg0, int arg1, int arg2, int arg3, int arg4) { int dstacktmp = 0; // It seems Solaris passes up to 5 arguments which should be pushed onto the Forth // stack for execution. However the API doesn't provide for a way to specify the number // of arguments actually being passed. Hence we preserve the state of the Forth stack // before, push all the arguments, execute the Forth, then restore the stack to its // previous state. This enables us to have a variable number of arguments and still // preserve stack state between subsequent calls. // Preserve stack state dstacktmp = dstackcnt; PUSH(arg4); PUSH(arg3); PUSH(arg2); PUSH(arg1); PUSH(arg0); DPRINTF("obp_fortheval_v2(%x %x %x %x %x %s)\n", arg4, arg3, arg2, arg1, arg0, str); push_str(str); fword("eval"); // Restore stack state dstackcnt = dstacktmp; } volatile uint32_t *obp_ticks; void * init_openprom(void) { /* Setup the openprom vector. Note that all functions should be invoked via their handler (see call-romvec.S) which acts as a proxy to save the globals and setup the stack correctly */ // Linux wants a R/W romvec table romvec0.pv_magic_cookie = LINUX_OPPROM_MAGIC; romvec0.pv_romvers = 3; romvec0.pv_plugin_revision = 2; romvec0.pv_printrev = 0x20019; romvec0.pv_v0mem.v0_totphys = NULL; romvec0.pv_v0mem.v0_prommap = NULL; romvec0.pv_v0mem.v0_available = NULL; romvec0.pv_nodeops = &nodeops0; romvec0.pv_bootstr = (void *)doublewalk; romvec0.pv_v0devops.v0_devopen = &obp_devopen_handler; romvec0.pv_v0devops.v0_devclose = &obp_devclose_handler; romvec0.pv_v0devops.v0_rdblkdev = &obp_rdblkdev_handler; romvec0.pv_stdin = &obp_stdin; romvec0.pv_stdout = &obp_stdout; romvec0.pv_getchar = obp_nbgetchar_handler; romvec0.pv_putchar = (void (*)(int))obp_nbputchar_handler; romvec0.pv_nbgetchar = obp_nbgetchar_handler; romvec0.pv_nbputchar = obp_nbputchar_handler; romvec0.pv_putstr = obp_putstr_handler; romvec0.pv_reboot = obp_reboot_handler; romvec0.pv_printf = obp_printf_handler; romvec0.pv_abort = obp_abort_handler; /* Point to the Forth obp-ticks variable and reset */ fword("obp-ticks"); obp_ticks = cell2pointer(POP()); *obp_ticks = 0; romvec0.pv_ticks = obp_ticks; romvec0.pv_halt = obp_halt_handler; romvec0.pv_synchook = &sync_hook; romvec0.pv_v0bootargs = &obp_argp; romvec0.pv_fortheval.v2_eval = obp_fortheval_v2_handler; romvec0.pv_v2devops.v2_inst2pkg = obp_inst2pkg_handler; romvec0.pv_v2devops.v2_dumb_mem_alloc = obp_dumb_memalloc_handler; romvec0.pv_v2devops.v2_dumb_mem_free = obp_dumb_memfree_handler; romvec0.pv_v2devops.v2_dumb_mmap = obp_dumb_mmap_handler; romvec0.pv_v2devops.v2_dumb_munmap = obp_dumb_munmap_handler; romvec0.pv_v2devops.v2_dev_open = obp_devopen_handler; romvec0.pv_v2devops.v2_dev_close = (void (*)(int))obp_devclose_handler; romvec0.pv_v2devops.v2_dev_read = obp_devread_handler; romvec0.pv_v2devops.v2_dev_write = obp_devwrite_handler; romvec0.pv_v2devops.v2_dev_seek = obp_devseek_handler; romvec0.pv_v2bootargs.bootpath = &bootpath; romvec0.pv_v2bootargs.bootargs = &obp_arg.argv[1]; /* Point fd_stdin/fd_stdout to the Forth stdin/stdout variables */ fword("stdin"); romvec0.pv_v2bootargs.fd_stdin = cell2pointer(POP()); fword("stdout"); romvec0.pv_v2bootargs.fd_stdout = cell2pointer(POP()); romvec0.v3_memalloc = obp_memalloc_handler; romvec0.v3_cpustart = obp_cpustart_handler; romvec0.v3_cpustop = obp_cpustop_handler; romvec0.v3_cpuidle = obp_cpuidle_handler; romvec0.v3_cpuresume = obp_cpuresume_handler; return &romvec0; }