/* * GRUB -- GRand Unified Bootloader * Copyright (C) 2013 Free Software Foundation, Inc. * * GRUB 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 of the License, or * (at your option) any later version. * * GRUB 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 GRUB. If not, see . */ #include #include #include #include /* * The main syscall entry point is not reentrant, only one call is * serviced until finished. * * int syscall(int call, int *retval, ...) * e.g. syscall(1, int *, u_int32_t, u_int32_t, u_int32_t, u_int32_t); * * call: syscall number * * retval: points to the return value placeholder, this is the place the * syscall puts its return value, if NULL the caller does not * expect a return value * * ... syscall arguments (variable number) * * returns: 0 if the call not found, 1 if serviced */ extern int grub_uboot_syscall (int, int *, ...); static struct sys_info uboot_sys_info; static struct mem_region uboot_mem_info[5]; static struct device_info * devices; static int num_devices; /* * All functions below are wrappers around the grub_uboot_syscall() function */ int grub_uboot_getc (void) { int c; if (!grub_uboot_syscall (API_GETC, NULL, &c)) return -1; return c; } int grub_uboot_tstc (void) { int c; if (!grub_uboot_syscall (API_TSTC, NULL, &c)) return -1; return c; } void grub_uboot_putc (int c) { grub_uboot_syscall (API_PUTC, NULL, &c); } void grub_uboot_puts (const char *s) { grub_uboot_syscall (API_PUTS, NULL, s); } void grub_uboot_reset (void) { grub_uboot_syscall (API_RESET, NULL, 0); } struct sys_info * grub_uboot_get_sys_info (void) { int retval; grub_memset (&uboot_sys_info, 0, sizeof (uboot_sys_info)); grub_memset (&uboot_mem_info, 0, sizeof (uboot_mem_info)); uboot_sys_info.mr = uboot_mem_info; uboot_sys_info.mr_no = sizeof (uboot_mem_info) / sizeof (struct mem_region); if (grub_uboot_syscall (API_GET_SYS_INFO, &retval, &uboot_sys_info)) if (retval == 0) return &uboot_sys_info; return NULL; } void grub_uboot_udelay (grub_uint32_t usec) { grub_uboot_syscall (API_UDELAY, NULL, &usec); } grub_uint32_t grub_uboot_get_timer (grub_uint32_t base) { grub_uint32_t current; if (!grub_uboot_syscall (API_GET_TIMER, NULL, ¤t, &base)) return 0; return current; } int grub_uboot_dev_enum (void) { struct device_info * enum_devices; int num_enum_devices, max_devices; if (num_devices) return num_devices; max_devices = 2; enum_devices = grub_malloc (sizeof(struct device_info) * max_devices); if (!enum_devices) return 0; /* * The API_DEV_ENUM call starts a fresh enumeration when passed a * struct device_info with a NULL cookie, and then depends on having * the previously enumerated device cookie "seeded" into the target * structure. */ enum_devices[0].cookie = NULL; num_enum_devices = 0; if (grub_uboot_syscall (API_DEV_ENUM, NULL, &enum_devices[num_enum_devices]) == 0) goto error; num_enum_devices++; while (enum_devices[num_enum_devices - 1].cookie != NULL) { if (num_enum_devices == max_devices) { struct device_info *tmp; int new_max; new_max = max_devices * 2; tmp = grub_realloc (enum_devices, sizeof (struct device_info) * new_max); if (!tmp) { /* Failed to realloc, so return what we have */ break; } enum_devices = tmp; max_devices = new_max; } enum_devices[num_enum_devices].cookie = enum_devices[num_enum_devices - 1].cookie; if (grub_uboot_syscall (API_DEV_ENUM, NULL, &enum_devices[num_enum_devices]) == 0) goto error; if (enum_devices[num_enum_devices].cookie == NULL) break; num_enum_devices++; } devices = enum_devices; return num_devices = num_enum_devices; error: grub_free (enum_devices); return 0; } #define VALID_DEV(x) (((x) < num_devices) && ((x) >= 0)) #define OPEN_DEV(x) ((x->state == DEV_STA_OPEN)) struct device_info * grub_uboot_dev_get (int index) { if (VALID_DEV (index)) return &devices[index]; return NULL; } int grub_uboot_dev_open (struct device_info *dev) { int retval; if (!grub_uboot_syscall (API_DEV_OPEN, &retval, dev)) return -1; return retval; } int grub_uboot_dev_close (struct device_info *dev) { int retval; if (!grub_uboot_syscall (API_DEV_CLOSE, &retval, dev)) return -1; return retval; } int grub_uboot_dev_read (struct device_info *dev, void *buf, grub_size_t blocks, grub_uint32_t start, grub_size_t * real_blocks) { int retval; if (!OPEN_DEV (dev)) return -1; if (!grub_uboot_syscall (API_DEV_READ, &retval, dev, buf, &blocks, &start, real_blocks)) return -1; return retval; } int grub_uboot_dev_recv (struct device_info *dev, void *buf, int size, int *real_size) { int retval; if (!OPEN_DEV (dev)) return -1; if (!grub_uboot_syscall (API_DEV_READ, &retval, dev, buf, &size, real_size)) return -1; return retval; } int grub_uboot_dev_send (struct device_info *dev, void *buf, int size) { int retval; if (!OPEN_DEV (dev)) return -1; if (!grub_uboot_syscall (API_DEV_WRITE, &retval, dev, buf, &size)) return -1; return retval; } char * grub_uboot_env_get (const char *name) { char *value; if (!grub_uboot_syscall (API_ENV_GET, NULL, name, &value)) return NULL; return value; } void grub_uboot_env_set (const char *name, const char *value) { grub_uboot_syscall (API_ENV_SET, NULL, name, value); }