FreeCalypso > hg > fc-magnetite
view src/cs/drivers/drv_app/ffs/board/tmffs.c @ 258:13bcc2ed7e44
configure.sh & targets/*.conf: emit FLASH_BASE_ADDR & FLASH_SECTOR_SIZE
into the generated Makefile
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Fri, 04 Aug 2017 07:14:16 +0000 |
parents | 945cf7f506b2 |
children |
line wrap: on
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/****************************************************************************** * Flash File System (ffs) * Idea, design and coding by Mads Meisner-Jensen, mmj@ti.com * * ffs testmode interface * * $Id: tmffs.c 1.51 Thu, 18 Dec 2003 10:50:52 +0100 tsj $ * ******************************************************************************/ #ifndef TARGET #include "ffs.cfg" #endif #if (TARGET == 1) #include "etm/etm.h" #include "etm/etm_api.h" #include "ffs/board/task.h" #endif #include "ffs/board/ffstrace.h" #include "ffs/board/tmffs.h" #include "ffs/ffs.h" #include "ffs/pcm.h" #include <string.h> /****************************************************************************** * Local globals for all protocols ******************************************************************************/ static int32 bufsize, tmpsize; static uint8 stringsize; effs_t ffs_initialize(void); effs_t ffs_exit(void); #define tmffs_put8(x) *outp++ = x; #define tmffs_put16(x) *outp++ = (x & 0xff); *outp++ = (x>>8); #if (TARGET == 1) int etm_ffs2(T_ETM_PKT *pkt, unsigned char *inp, int insize); // Not in use //#define tmffs_put32(x) tmffs_put16(x); tmffs_put16(x >> 16); /****************************************************************************** * TM FFS registration to ETM database *****************************************************************************/ /* Callback function registered in ETM database */ int etm_ffs1_pkt_receive(uint8 *data, int size) { int mid; T_ETM_PKT *pkt; ttw(ttr(TTrTmffs, "etm_ffs1_pkt_receive(*, %d)" NL, size)); /* Create TestMode return Packet */ if ((pkt = (T_ETM_PKT *) target_malloc(sizeof(T_ETM_PKT))) == NULL) { ttw(ttr(TTrTmffs, "etm_ffs1_pkt_receive(): Limit of memory bank reached" NL)); return ETM_NOMEM; } // Max packet size for TM3 is 128 bytes size = tm_ffs(pkt->data, TM3_PACKET_SIZE, data, size); pkt->size = size; pkt->status = ETM_OK; pkt->mid = ETM_FFS1; etm_pkt_send(pkt); target_free(pkt); return ETM_OK; } /* Callback function registered in ETM database */ int etm_ffs2_pkt_receive(uint8 *data, int size) { int status; T_ETM_PKT *pkt = NULL; ttw(ttr(TTrTmffs, "etm_ffs2_pkt_receive(*, %d)" NL, size)); /* Create TestMode return Packet */ if ((pkt = (T_ETM_PKT *) target_malloc(sizeof(T_ETM_PKT))) == NULL) { ttw(ttr(TTrTmffs, "etm_ffs2_pkt_receive(): Limit of memory bank reached" NL)); return ETM_NOMEM; } status = etm_ffs2(pkt, data, size); return status; } /* Init of FFS in the ETM database */ int etm_ffs_init(void) { int status; status = etm_register("FFS1", ETM_FFS1, 0, 0, etm_ffs1_pkt_receive); status = etm_register("FFS2", ETM_FFS2, 0, 0, etm_ffs2_pkt_receive); return status; } #endif // (TARGET == 1) /****************************************************************************** * FFS1 Protocol ******************************************************************************/ #ifndef TMFFS1 int tm_ffs(unsigned char *outp, int outsize, unsigned char *inp, int insize) { return -1; // FIXME handle error better } // Note these functions must be presented because ffs_query() use them but // they are only valid if FFS1_PROTOCOL is used. int tmffs_bufsize(void) { return EFFS_NOSYS; } unsigned char *tmffs_bufaddr(void) { return 0; } #else #if (GSMLITE == 1) #define TMFFS1_BUFFER_SIZE 4000 //previously 8192 #else #define TMFFS1_BUFFER_SIZE 8192 #endif #define TMFFS1_STRING_SIZE 127 /****************************************************************************** * Macros ******************************************************************************/ #define tmffs1_putdata(outp, src, size) \ tmffs_put8(FPI_DATA); \ tmffs_put16(size); \ memcpy(outp, src, size); \ outp += size; /****************************************************************************** * Local globals ******************************************************************************/ static unsigned char buffer[TMFFS1_BUFFER_SIZE]; static bufindex; static char string[TMFFS1_STRING_SIZE]; static effs_t tm_ffs_overflowck(void) { if (bufsize > TMFFS1_BUFFER_SIZE || stringsize > TMFFS1_STRING_SIZE) return EFFS_TOOBIG; return EFFS_OK; } /****************************************************************************** * tm_ffs ******************************************************************************/ /** * NOTEME: This has been introduced when the ffs 1MB device limit was * broken. This made location_t go from uint16 to uint32, messing up * with PCTM. * * This makes the xstat_s look the same to PCTM PC side, though * location will be forced to 0. */ void hack_xstat_2_look_like_old_xstat(struct xstat_s *xstat) { int i; char *location; xstat->location = 0; for (location = (char *) &(xstat->location) + 2; location <= (char *) &(xstat->sequence); location++) *location = location[2]; } // Parse input message and execute function. Then fill output buffer with // return values from the called function and transmit the message. Return // number of bytes inserted into output buffer. If return value is negative, // it represents an error code. int tm_ffs(unsigned char *outp, int outsize, unsigned char *inp, int insize) { int error; tmffs_cid_t fid; unsigned char *outp_start = outp; unsigned char *inp_start = inp; static uint8 i8[2]; static uint16 i8i; static uint16 i16[2]; static uint16 i16i; static uint32 i32[2]; static uint16 i32i; tw(tr(TR_BEGIN, TrTmffs, "TMFFS:\n")); while((fid = *inp++) != FPI_END) { switch(fid) { /********************************************************** * Generic Protocol Functions **********************************************************/ case FPI_BEGIN: // for (i8i = 0; i8i < TMFFS1_STRING_SIZE; i8i++) // DEBUG // string[i8i] = '#'; // for (i8i = 0; i8i < TMFFS1_BUFFER_SIZE; i8i++) // DEBUG // buffer[i8i] = '$'; i8i = i16i = i32i = bufsize = stringsize = 0; bufindex = 0; i8[0] = i8[1] = 0; i16[0] = i16[1] = 0; i32[0] = i32[1] = 0; string[0] = buffer[0] = 0; tw(tr(TR_FUNC, TrTmffs, "FPI_BEGIN\n")); ttw(ttr(TTrTmffs, "tm1" NL)); break; case FPI_TMFFS_VERSION: // NULL -> UINT16 tmffs_put16(TMFFS1_VERSION); break; case FPI_INT8: i8[i8i++] = inp[0]; inp += 1; tw(tr(TR_FUNC, TrTmffs, "FPI_INT8(%d/0x%x)\n", i8[i8i-1], i8[i8i-1])); ttw(ttr(TTrTmffs, "tm_i8" NL)); break; case FPI_INT16: i16[i16i++] = (inp[0]) | (inp[1] << 8); inp += 2; tw(tr(TR_FUNC, TrTmffs, "FPI_INT16(%d/0x%x)\n", i16[i16i-1], i16[i16i-1])); ttw(ttr(TTrTmffs, "tm_i16" NL)); break; case FPI_INT32: i32[i32i++] = inp[0] | (inp[1] << 8) | (inp[2] << 16) | (inp[3] << 24); inp += 4; tw(tr(TR_FUNC, TrTmffs, "FPI_INT32(%d/0x%x)\n", i32[i32i-1], i32[i32i-1])); ttw(ttr(TTrTmffs, "tm_i32" NL)); break; case FPI_BUFFER: bufsize = inp[0] | (inp[1] << 8); inp += 2; tw(tr(TR_FUNC, TrTmffs, "FPI_BUFFER(%d)\n", bufsize)); ttw(ttr(TTrTmffs, "tm_buf" NL)); break; case FPI_DATA: bufsize = inp[0] | (inp[1] << 8); inp += 2; memcpy(buffer, inp, bufsize); inp += bufsize; tw(tr(TR_FUNC, TrTmffs, "FPI_DATA(%d)\n", bufsize)); ttw(ttr(TTrTmffs, "tm_data" NL)); break; case FPI_STRBUF: // string buffer size MUST include null-terminator! stringsize = inp[0]; inp += 1; tw(tr(TR_FUNC, TrTmffs, "FPI_STRBUF(%d)\n", stringsize)); ttw(ttr(TTrTmffs, "tm_sbuf" NL)); break; case FPI_STRING: // stringsize MUST include null-terminator! // <INT8>, <BYTES> -> NULL (or ERROR) stringsize = inp[0]; inp += 1; if (stringsize <= TMFFS1_STRING_SIZE) memcpy(string, inp, stringsize); inp += stringsize; tw(tr(TR_FUNC, TrTmffs, "FPI_STRING(%d,'%s')\n", stringsize, string)); ttw(ttr(TTrTmffs, "tm_s" NL)); break; case FPI_BUFREAD: // <INT16> -> DATA tmpsize = inp[0] | (inp[1] << 8); inp += 2; tw(tr(TR_FUNC, TrTmffs, "FPI_BUF_READ(%d)\n", tmpsize)); tmffs1_putdata(outp, &buffer[bufindex], tmpsize); bufindex += tmpsize; ttw(ttr(TTrTmffs, "tm_bufrd" NL)); break; case FPI_BUFWRITE: // <INT16>, <BYTES> -> NULL (or ERROR) tmpsize = inp[0] | (inp[1] << 8); inp += 2; tw(tr(TR_FUNC, TrTmffs, "FPI_BUF_WRITE(%d)\n", tmpsize)); if (bufsize + tmpsize <= TMFFS1_BUFFER_SIZE) memcpy(&buffer[bufsize], inp, tmpsize); inp += tmpsize; bufsize += tmpsize; ttw(ttr(TTrTmffs, "tm_bufwr" NL)); break; case FPI_BUFSET: bufindex = inp[0] | (inp[1] << 8); inp += 2; tw(tr(TR_FUNC, TrTmffs, "FPI_BUF_SET(%d)\n", bufindex)); ttw(ttr(TTrTmffs, "tm_bufset" NL)); break; /********************************************************** * FFS Functions **********************************************************/ case FPI_PREFORMAT: // NULL -> ERROR if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_preformat_nb(i16[0], 0); if (error > 0) error = 0; // ignore request id tmffs_put8(error); tw(tr(TR_FUNC, TrTmffs, "FPI_PREFORMAT(0x%x)\n", i16[0])); ttw(ttr(TTrTmffs, "tm_pfmt" NL)); break; case FPI_FORMAT: // STRING -> ERROR if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_format_nb(&string[0], i16[0], 0); if (error > 0) error = 0; // ignore request id tmffs_put8(error); tw(tr(TR_FUNC, TrTmffs, "FPI_FORMAT(0x%x)\n", i16[0])); ttw(ttr(TTrTmffs, "tm_fmt" NL)); break; case FPI_FCREATE: // STRING, DATA -> ERROR if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_fcreate_nb(string, buffer, bufsize, 0); if (error > 0) error = 0; // ignore request id tmffs_put8(error); tw(tr(TR_FUNC, TrTmffs, "FPI_FCREATE('%s', 0x%x, %d/0x%x)\n", string, buffer, bufsize, bufsize)); ttw(ttr(TTrTmffs, "tm_fcr" NL)); break; case FPI_FUPDATE: // STRING, DATA -> ERROR if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_fupdate_nb(string, buffer, bufsize, 0); if (error > 0) error = 0; // ignore request id tmffs_put8(error); tw(tr(TR_FUNC, TrTmffs, "FPI_FUPDATE('%s', 0x%x, %d/0x%x)\n", string, buffer, bufsize, bufsize)); ttw(ttr(TTrTmffs, "tm_fup" NL)); break; case FPI_FWRITE: // STRING, DATA -> ERROR if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_fwrite_nb(string, buffer, bufsize, 0); if (error > 0) error = 0; // ignore request id tmffs_put8(error); tw(tr(TR_FUNC, TrTmffs, "FPI_FWRITE('%s', 0x%x, %d/0x%x)\n", string, buffer, bufsize, bufsize)); ttw(ttr(TTrTmffs, "tm_fwr" NL)); break; case FPI_FREAD: // STRING, BUFFER -> ERROR if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_file_read(string, buffer, TMFFS1_BUFFER_SIZE); // Because a 32-bit integer is returned, we have to saturate it // into an 8-bit value. if (error >= 0) error = 0; tmffs_put8(error); tw(tr(TR_FUNC, TrTmffs, "FPI_FREAD('%s', 0x%x, %d/0x%x)\n", string, buffer, bufsize, bufsize)); ttw(ttr(TTrTmffs, "tm_frd" NL)); break; case FPI_REMOVE: // STRING -> ERROR if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_remove_nb(string, 0); if (error > 0) error = 0; // ignore request id tmffs_put8(error); tw(tr(TR_FUNC, TrTmffs, "FPI_REMOVE()\n")); ttw(ttr(TTrTmffs, "tm_rm" NL)); break; case FPI_MKDIR: // STRING -> ERROR if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_mkdir_nb(string, 0); if (error > 0) error = 0; // ignore request id tmffs_put8(error); tw(tr(TR_FUNC, TrTmffs, "FPI_MKDIR()\n")); ttw(ttr(TTrTmffs, "tm_mkd" NL)); break; case FPI_OPENDIR: // STRING, BUFFER -> ERROR, DATA if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_opendir(string, (struct dir_s *) buffer); // Because a 32-bit integer is returned, we have to saturate it // into an 8-bit value. if (error >= 0) error = 0; tmffs_put8(error); tmffs1_putdata(outp, buffer, sizeof(struct dir_s)); tw(tr(TR_FUNC, TrTmffs, "FPI_OPENDIR()\n")); ttw(ttr(TTrTmffs, "tm_od" NL)); break; case FPI_READDIR: // DATA, STRBUF -> ERROR, DATA, STRING string[0] = 0; if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_readdir((struct dir_s *) buffer, string, stringsize); // Saturate error(i) in order to let it fit in type int8. if (error > 127) error = 127; tmffs_put8(error); tmffs1_putdata(outp, buffer, sizeof(struct dir_s)); stringsize = strlen(string) + 1; tmffs_put8(FPI_STRING); // put directory entry's name... tmffs_put8(stringsize); memcpy(outp, string, stringsize); outp += stringsize; tw(tr(TR_FUNC, TrTmffs, "FPI_READDIR()\n")); ttw(ttr(TTrTmffs, "tm_rdd" NL)); break; case FPI_STAT: // STRING, BUFFER -> ERROR, DATA if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_stat(&string[0], (struct stat_s *) buffer); tmffs_put8(error); tmffs1_putdata(outp, buffer, sizeof(struct stat_s)); tw(tr(TR_FUNC, TrTmffs, "FPI_STAT()\n")); ttw(ttr(TTrTmffs, "tm_st" NL)); break; case FPI_LINKSTAT: // STRING, BUFFER -> ERROR, DATA if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_xlstat(&string[0], (struct xstat_s *) buffer); tmffs_put8(error); hack_xstat_2_look_like_old_xstat((struct xstat_s *) buffer); tmffs1_putdata(outp, buffer, sizeof(struct xstat_s) - 2); tw(tr(TR_FUNC, TrTmffs, "FPI_()\n")); ttw(ttr(TTrTmffs, "tm_lst" NL)); break; case FPI_SYMLINK: // STRING, DATA -> ERROR if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_symlink_nb(string, (char *) buffer, 0); if (error > 0) error = 0; // ignore request id tmffs_put8(error); tw(tr(TR_FUNC, TrTmffs, "FPI_SYMLINK()\n")); ttw(ttr(TTrTmffs, "tm_sym" NL)); break; case FPI_READLINK: // STRING, BUFFER -> ERROR, DATA if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_readlink(string, (char *) buffer, TMFFS1_BUFFER_SIZE); // Because a 32-bit integer is returned, we have to saturate it // into an 8-bit value. if (error >= 0) error = 0; tmffs_put8(error); tmffs1_putdata(outp, buffer, bufsize); // put link contents tw(tr(TR_FUNC, TrTmffs, "FPI_READLINK()\n")); ttw(ttr(TTrTmffs, "tm_rdl" NL)); break; case FPI_QUERY: // INT8 -> ERROR, DATA error = ffs_query(i8[0], buffer); tmffs_put8(error); tmffs1_putdata(outp, buffer, 16); tw(tr(TR_FUNC, TrTmffs, "FPI_QUERY()\n")); ttw(ttr(TTrTmffs, "tm_q" NL)); break; case FPI_FCONTROL: // STRING INT8 INT32 -> ERROR if ((error = tm_ffs_overflowck()) == EFFS_OK) error = ffs_fcontrol_nb(string, i8[0], i32[0], 0); if (error > 0) error = 0; // ignore request id tmffs_put8(error); tw(tr(TR_FUNC, TrTmffs, "FPI_FCONTROL()\n")); ttw(ttr(TTrTmffs, "tm_fc" NL)); break; case FPI_INIT: // NULL -> ERROR error =ffs_initialize(); tmffs_put8(error); tw(tr(TR_FUNC, TrTmffs, "FPI_INIT()\n")); ttw(ttr(TTrTmffs, "tm_init" NL)); break; case FPI_EXIT: // NULL -> ERROR error = ffs_exit(); tmffs_put8(error); tw(tr(TR_FUNC, TrTmffs, "FPI_EXIT()\n")); ttw(ttr(TTrTmffs, "tm_exit" NL)); break; case FPI_TFFS: { // STRING -> ERROR #if (WITH_TFFS == 1) extern char ffs_test_string[]; // defined in task.c memcpy(ffs_test_string, string, stringsize); tw(tr(TR_FUNC, TrTmffs, "FPI_TFFS()\n")); ttw(ttr(TTrTmffs, "tm_tffs" NL)); #else tmffs_put8(EFFS_NOSYS); #endif break; } default: tw(tr(TR_FUNC, TrTmffs, "ERROR: Unknown tmffs protocol code\n")); ttw(ttr(TTrTmffs, "tm?" NL)); break; } // check if we read beyond buffer end if (inp > inp_start + insize) { tw(tr(TR_FUNC, TrTmffs, "ERROR: Read beyond end of input buffer\n")); ttw(ttr(TTrTmffs, "tm_fatal" NL)); // NOTEME: We really should reset output buffer and put a return // code that tells us what went wrong! return 0; } } tw(tr(TR_END, TrTmffs, "")); return outp - outp_start; } int tmffs_bufsize(void) { return TMFFS1_BUFFER_SIZE; } unsigned char *tmffs_bufaddr(void) { return buffer; } #endif // TMFFS1 /****************************************************************************** * FFS2 protocol ******************************************************************************/ #ifndef TMFFS2 #if (TARGET == 1) int etm_ffs2(T_ETM_PKT *pkt, unsigned char *inp, int insize) { int error; tw(tr(TR_BEGIN, TrTmffs, "FFS2 protocol not represented in target\n")); error = -1; // FIXME other error? #if 0 // Note we can only use this if etm is in target // We return a packet instead of waiting for timeout. pkt->size = 0; pkt->status = -error; pkt->mid = ETM_FFS2; etm_pkt_send(pkt); #endif target_free(pkt); tw(tr(TR_END, TrTmffs, "")); return error; } #endif // (TARGET == 1) #else #define TMFFS_BUFFER_SIZE 256 // FIXME change to packet size #define TMFFS_STRING_SIZE 127 /****************************************************************************** * Macros ******************************************************************************/ #define tmffs_get8() inp[0]; inp += 1; #define tmffs_get16() (inp[0]) | (inp[1] << 8); inp += 2; #define tmffs_get32() inp[0] | (inp[1] << 8) | (inp[2] << 16)\ | (inp[3] << 24); inp += 4; #define tmffs_getdata() bufsize = inp[0]; inp += 1; \ memcpy(buffer, inp, bufsize); inp += bufsize; /****************************************************************************** * Helper function ******************************************************************************/ // If size is less than zero it is because of a error and we dont have to put any // data if size is returned in status. int tmffs_putdata(unsigned char **buf, unsigned char *src, int size) { unsigned char *p = *buf; if (size > 0) { *p++ = size; memcpy(p, src, size); *buf += 1 + size; } return size; } int tmffs_putstring(unsigned char **buf, char *src, int size) { unsigned char *p = *buf; if (size > 0) { *p++ = size; memcpy(p, src, size); *buf += 1 + size; } return size; } int tmffs_getstring(unsigned char ** buf, char *string) { unsigned char *p = *buf; stringsize = *p++; if (stringsize > TMFFS_STRING_SIZE) return EFFS_TOOBIG; memcpy(string, p, stringsize); *buf += 1 + stringsize; return stringsize; } /****************************************************************************** * tm_ffs ******************************************************************************/ // Parse input message and execute function. Then fill output buffer with // return values from the called function and transmit the message. Return // number of bytes inserted into output buffer. If return value is negative, // it represents an error code. int etm_ffs2(T_ETM_PKT *pkt, unsigned char *inp, int insize) { tmffs2_cid_t fid; unsigned char buffer[TMFFS_BUFFER_SIZE]; char string[TMFFS_STRING_SIZE]; unsigned char *outp_start; unsigned char *inp_start = inp; unsigned char *outp; int error = 0, i, fdi, size, param, flags; uint8 type; bufsize = stringsize = tmpsize = 0; tw(tr(TR_BEGIN, TrTmffs, "TmFFS2\n")); outp_start = outp = pkt->data; fid = *inp++; ttw(ttr(TTrTmffs, "etm_ffs2 0x%x" NL, fid)); switch(fid) { /********************************************************** * Generic Protocol Functions **********************************************************/ case TMFFS_VERSION: tmffs_put16(TMFFS2_VERSION); break; /********************************************************** * FFS Functions **********************************************************/ case TMFFS_PREFORMAT: param = tmffs_get16(); error = ffs_preformat(param); tw(tr(TR_FUNC, TrTmffs, "TMFFS_PREFORMAT(0x%x)\n", param)); ttw(ttr(TTrTmffs, "tm_pfmt" NL)); break; case TMFFS_FORMAT: error = tmffs_getstring(&inp, string); param = tmffs_get16(); if (error >= 0) error = ffs_format(&string[0], param); tw(tr(TR_FUNC, TrTmffs, "TMFFS_FORMAT(0x%x)\n", param)); ttw(ttr(TTrTmffs, "tm_fmt" NL)); break; case TMFFS_FILE_WRITE: error = tmffs_getstring(&inp, string); tmffs_getdata(); flags = tmffs_get8(); if (error >= 0) error = ffs_file_write(string, buffer, bufsize, flags); ttw(ttr(TTrTmffs, "tm_fwr" NL)); break; case TMFFS_FILE_READ: error = tmffs_getstring(&inp, string); bufsize = tmffs_get8(); if (error >= 0) size = ffs_file_read(string, buffer, bufsize); error = tmffs_putdata(&outp, &buffer[0], size); tw(tr(TR_FUNC, TrTmffs, "TMFFS_FREAD('%s', 0x%x, %d/0x%x)\n", string, buffer, bufsize, bufsize)); ttw(ttr(TTrTmffs, "tm_frd" NL)); break; case TMFFS_REMOVE: error = tmffs_getstring(&inp, string); if (error >= 0) error = ffs_remove(string); tw(tr(TR_FUNC, TrTmffs, "TMFFS_REMOVE()\n")); ttw(ttr(TTrTmffs, "tm_rm" NL)); break; case TMFFS_OPEN: error = tmffs_getstring(&inp, string); flags = tmffs_get8(); if (error >= 0) error = ffs_open(string, flags); tmffs_put8(error); // fdi tw(tr(TR_FUNC, TrTmffs, "TMFFS_OPEN('%s', %d)\n", string, flags)); ttw(ttr(TTrTmffs, "tm_open" NL)); break; case TMFFS_CLOSE: fdi = tmffs_get8(); error = ffs_close(fdi); tw(tr(TR_FUNC, TrTmffs, "TMFFS_CLOSE(%d)\n", fdi)); ttw(ttr(TTrTmffs, "tm_close" NL)); break; case TMFFS_WRITE: fdi = tmffs_get8(); tmffs_getdata(); error = ffs_write(fdi, buffer, bufsize); tmffs_put8(error); // put size tw(tr(TR_FUNC, TrTmffs, "TMFFS_WRITE(%d, %d)\n", fdi, bufsize)); ttw(ttr(TTrTmffs, "tm_write" NL)); break; case TMFFS_READ: fdi = tmffs_get8(); size = tmffs_get8(); size = ffs_read(fdi, &buffer[0], size); error = tmffs_putdata(&outp, &buffer[0], size); tw(tr(TR_FUNC, TrTmffs, "TMFFS_READ(%d, %d)\n", fdi, size)); ttw(ttr(TTrTmffs, "tm_read" NL)); break; case TMFFS_MKDIR: error = tmffs_getstring(&inp, string); if (error >= 0) error = ffs_mkdir(string); tw(tr(TR_FUNC, TrTmffs, "TMFFS_MKDIR()\n")); ttw(ttr(TTrTmffs, "tm_mkd" NL)); break; case TMFFS_OPENDIR: error = tmffs_getstring(&inp, string); if (error >= 0) { error = ffs_opendir(string, (struct dir_s *) buffer); tmffs_put8(error); // Note: we must put error/number of objects. } if (error >= 0) tmffs_putdata(&outp, buffer, sizeof(struct dir_s)); tw(tr(TR_FUNC, TrTmffs, "TMFFS_OPENDIR()\n")); ttw(ttr(TTrTmffs, "tm_od" NL)); break; case TMFFS_READDIR: tmffs_getdata(); stringsize = tmffs_get8(); error = ffs_readdir((struct dir_s *) buffer, string, stringsize); tmffs_put8(error); // Note: we have to return bytes read. if (error >= 0) { tmffs_putdata(&outp, buffer, sizeof(struct dir_s)); stringsize = strlen(string) + 1; tmffs_putstring(&outp, string, stringsize); } tw(tr(TR_FUNC, TrTmffs, "TMFFS_READDIR()\n")); ttw(ttr(TTrTmffs, "tm_rdd" NL)); break; case TMFFS_STAT: error = tmffs_getstring(&inp, string); if (error >= 0) error = ffs_stat(string, (struct stat_s *) buffer); if (error >= 0) tmffs_putdata(&outp, buffer, sizeof(struct stat_s)); tw(tr(TR_FUNC, TrTmffs, "TMFFS_STAT()\n")); ttw(ttr(TTrTmffs, "tm_st" NL)); break; case TMFFS_XLSTAT: error = tmffs_getstring(&inp, string); if (error >= 0) error = ffs_xlstat(&string[0], (struct xstat_s *) buffer); if (error >= 0) tmffs_putdata(&outp, buffer, sizeof(struct xstat_s)); tw(tr(TR_FUNC, TrTmffs, "TMFFS_()\n")); ttw(ttr(TTrTmffs, "tm_xlst" NL)); break; case TMFFS_SYMLINK: error = tmffs_getstring(&inp, string); tmffs_getdata(); if (error >= 0) error = ffs_symlink(string, (char *) buffer); tw(tr(TR_FUNC, TrTmffs, "TMFFS_SYMLINK()\n")); ttw(ttr(TTrTmffs, "tm_sym" NL)); break; case TMFFS_READLINK: error = tmffs_getstring(&inp, string); tmffs_getdata(); if (error >= 0) { size = ffs_readlink(string, (char *) buffer, TMFFS_BUFFER_SIZE); error = tmffs_putdata(&outp, buffer, size); // put link contents } tw(tr(TR_FUNC, TrTmffs, "TMFFS_READLINK()\n")); ttw(ttr(TTrTmffs, "tm_rdl" NL)); break; case TMFFS_QUERY: param = tmffs_get8(); error = ffs_query(param, buffer); if (error >= 0) tmffs_putdata(&outp, buffer, 16); tw(tr(TR_FUNC, TrTmffs, "TMFFS_QUERY(%d)\n", param)); ttw(ttr(TTrTmffs, "tm_q" NL)); break; case TMFFS_FCONTROL: error = tmffs_getstring(&inp, string); type = tmffs_get8(); param = tmffs_get32(); if (error >= 0) error = ffs_fcontrol(string, type, param); tw(tr(TR_FUNC, TrTmffs, "TMFFS_FCONTROL()\n")); ttw(ttr(TTrTmffs, "tm_fc" NL)); break; case TMFFS_TFFS: { #if (WITH_TFFS == 1) extern char ffs_test_string[]; // defined in task.c error = tmffs_getstring(&inp, string); memcpy(ffs_test_string, string, stringsize); tw(tr(TR_FUNC, TrTmffs, "TMFFS_TFFS()\n")); ttw(ttr(TTrTmffs, "tm_tffs" NL)); tmffs_put8(EFFS_OK); #else tmffs_put8(EFFS_NOSYS); #endif break; } default: error = EFFS_NOSYS; tmffs_put8(EFFS_NOSYS); tw(tr(TR_FUNC, TrTmffs, "ERROR: Unknown tmffs protocol code\n")); ttw(ttr(TTrTmffs, "tm?" NL)); break; } // check if we read beyond buffer end if (inp > inp_start + insize) { tw(tr(TR_FUNC, TrTmffs, "ERROR: Read beyond end of input buffer\n")); ttw(ttr(TTrTmffs, "tm_fatal" NL)); ttw(ttr(TTrTmffs, "insize: %d, diff: %d" NL, insize, inp - (inp_start + insize))); // NOTEME: We really should reset output buffer and put a return // code that tells us what went wrong! error = ETM_PACKET; // FIXME find another error } ttw(ttr(TTrTmffs, "error %d" NL, error)); if (error > 0) error = 0; pkt->mid = ETM_FFS2; pkt->size = outp - outp_start; pkt->status = -error; etm_pkt_send(pkt); etm_free(pkt); tw(tr(TR_END, TrTmffs, "")); return ETM_OK; } #endif // TMFFS2